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Critical thinking and problem-solving, jump to: , what is critical thinking, characteristics of critical thinking, why teach critical thinking.

Teaching Strategies to Help Promote Critical Thinking Skills

References and Resources

When examining the vast literature on critical thinking, various definitions of critical thinking emerge. Here are some samples:

"Critical thinking is the intellectually disciplined process of actively and skillfully conceptualizing, applying, analyzing, synthesizing, and/or evaluating information gathered from, or generated by, observation, experience, reflection, reasoning, or communication, as a guide to belief and action" (Scriven, 1996).
"Most formal definitions characterize critical thinking as the intentional application of rational, higher order thinking skills, such as analysis, synthesis, problem recognition and problem solving, inference, and evaluation" (Angelo, 1995, p. 6).
"Critical thinking is thinking that assesses itself" (Center for Critical Thinking, 1996b).
"Critical thinking is the ability to think about one's thinking in such a way as 1. To recognize its strengths and weaknesses and, as a result, 2. To recast the thinking in improved form" (Center for Critical Thinking, 1996c).

Perhaps the simplest definition is offered by Beyer (1995) : "Critical thinking... means making reasoned judgments" (p. 8). Basically, Beyer sees critical thinking as using criteria to judge the quality of something, from cooking to a conclusion of a research paper. In essence, critical thinking is a disciplined manner of thought that a person uses to assess the validity of something (statements, news stories, arguments, research, etc.).

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Wade (1995) identifies eight characteristics of critical thinking. Critical thinking involves asking questions, defining a problem, examining evidence, analyzing assumptions and biases, avoiding emotional reasoning, avoiding oversimplification, considering other interpretations, and tolerating ambiguity. Dealing with ambiguity is also seen by Strohm & Baukus (1995) as an essential part of critical thinking, "Ambiguity and doubt serve a critical-thinking function and are a necessary and even a productive part of the process" (p. 56).

Another characteristic of critical thinking identified by many sources is metacognition. Metacognition is thinking about one's own thinking. More specifically, "metacognition is being aware of one's thinking as one performs specific tasks and then using this awareness to control what one is doing" (Jones & Ratcliff, 1993, p. 10 ).

In the book, Critical Thinking, Beyer elaborately explains what he sees as essential aspects of critical thinking. These are:

Dispositions: Critical thinkers are skeptical, open-minded, value fair-mindedness, respect evidence and reasoning, respect clarity and precision, look at different points of view, and will change positions when reason leads them to do so.
Criteria: To think critically, must apply criteria. Need to have conditions that must be met for something to be judged as believable. Although the argument can be made that each subject area has different criteria, some standards apply to all subjects. "... an assertion must... be based on relevant, accurate facts; based on credible sources; precise; unbiased; free from logical fallacies; logically consistent; and strongly reasoned" (p. 12).
Argument: Is a statement or proposition with supporting evidence. Critical thinking involves identifying, evaluating, and constructing arguments.
Reasoning: The ability to infer a conclusion from one or multiple premises. To do so requires examining logical relationships among statements or data.
Point of View: The way one views the world, which shapes one's construction of meaning. In a search for understanding, critical thinkers view phenomena from many different points of view.
Procedures for Applying Criteria: Other types of thinking use a general procedure. Critical thinking makes use of many procedures. These procedures include asking questions, making judgments, and identifying assumptions.

Oliver & Utermohlen (1995) see students as too often being passive receptors of information. Through technology, the amount of information available today is massive. This information explosion is likely to continue in the future. Students need a guide to weed through the information and not just passively accept it. Students need to "develop and effectively apply critical thinking skills to their academic studies, to the complex problems that they will face, and to the critical choices they will be forced to make as a result of the information explosion and other rapid technological changes" (Oliver & Utermohlen, p. 1 ).

As mentioned in the section, Characteristics of Critical Thinking , critical thinking involves questioning. It is important to teach students how to ask good questions, to think critically, in order to continue the advancement of the very fields we are teaching. "Every field stays alive only to the extent that fresh questions are generated and taken seriously" (Center for Critical Thinking, 1996a ).

Beyer sees the teaching of critical thinking as important to the very state of our nation. He argues that to live successfully in a democracy, people must be able to think critically in order to make sound decisions about personal and civic affairs. If students learn to think critically, then they can use good thinking as the guide by which they live their lives.

Teaching Strategies to Help Promote Critical Thinking

The 1995, Volume 22, issue 1, of the journal, Teaching of Psychology , is devoted to the teaching critical thinking. Most of the strategies included in this section come from the various articles that compose this issue.

CATS (Classroom Assessment Techniques): Angelo stresses the use of ongoing classroom assessment as a way to monitor and facilitate students' critical thinking. An example of a CAT is to ask students to write a "Minute Paper" responding to questions such as "What was the most important thing you learned in today's class? What question related to this session remains uppermost in your mind?" The teacher selects some of the papers and prepares responses for the next class meeting.
Cooperative Learning Strategies: Cooper (1995) argues that putting students in group learning situations is the best way to foster critical thinking. "In properly structured cooperative learning environments, students perform more of the active, critical thinking with continuous support and feedback from other students and the teacher" (p. 8).
Case Study /Discussion Method: McDade (1995) describes this method as the teacher presenting a case (or story) to the class without a conclusion. Using prepared questions, the teacher then leads students through a discussion, allowing students to construct a conclusion for the case.
Using Questions: King (1995) identifies ways of using questions in the classroom:
Reciprocal Peer Questioning: Following lecture, the teacher displays a list of question stems (such as, "What are the strengths and weaknesses of...). Students must write questions about the lecture material. In small groups, the students ask each other the questions. Then, the whole class discusses some of the questions from each small group.
Reader's Questions: Require students to write questions on assigned reading and turn them in at the beginning of class. Select a few of the questions as the impetus for class discussion.
Conference Style Learning: The teacher does not "teach" the class in the sense of lecturing. The teacher is a facilitator of a conference. Students must thoroughly read all required material before class. Assigned readings should be in the zone of proximal development. That is, readings should be able to be understood by students, but also challenging. The class consists of the students asking questions of each other and discussing these questions. The teacher does not remain passive, but rather, helps "direct and mold discussions by posing strategic questions and helping students build on each others' ideas" (Underwood & Wald, 1995, p. 18 ).
Use Writing Assignments: Wade sees the use of writing as fundamental to developing critical thinking skills. "With written assignments, an instructor can encourage the development of dialectic reasoning by requiring students to argue both [or more] sides of an issue" (p. 24).
Written dialogues: Give students written dialogues to analyze. In small groups, students must identify the different viewpoints of each participant in the dialogue. Must look for biases, presence or exclusion of important evidence, alternative interpretations, misstatement of facts, and errors in reasoning. Each group must decide which view is the most reasonable. After coming to a conclusion, each group acts out their dialogue and explains their analysis of it.
Spontaneous Group Dialogue: One group of students are assigned roles to play in a discussion (such as leader, information giver, opinion seeker, and disagreer). Four observer groups are formed with the functions of determining what roles are being played by whom, identifying biases and errors in thinking, evaluating reasoning skills, and examining ethical implications of the content.
Ambiguity: Strohm & Baukus advocate producing much ambiguity in the classroom. Don't give students clear cut material. Give them conflicting information that they must think their way through.
Angelo, T. A. (1995). Beginning the dialogue: Thoughts on promoting critical thinking: Classroom assessment for critical thinking. Teaching of Psychology, 22(1), 6-7.
Beyer, B. K. (1995). Critical thinking. Bloomington, IN: Phi Delta Kappa Educational Foundation.
Center for Critical Thinking (1996a). The role of questions in thinking, teaching, and learning. [On-line]. Available HTTP: http://www.criticalthinking.org/University/univlibrary/library.nclk
Center for Critical Thinking (1996b). Structures for student self-assessment. [On-line]. Available HTTP: http://www.criticalthinking.org/University/univclass/trc.nclk
Center for Critical Thinking (1996c). Three definitions of critical thinking [On-line]. Available HTTP: http://www.criticalthinking.org/University/univlibrary/library.nclk
Cooper, J. L. (1995). Cooperative learning and critical thinking. Teaching of Psychology, 22(1), 7-8.
Jones, E. A. & Ratcliff, G. (1993). Critical thinking skills for college students. National Center on Postsecondary Teaching, Learning, and Assessment, University Park, PA. (Eric Document Reproduction Services No. ED 358 772)
King, A. (1995). Designing the instructional process to enhance critical thinking across the curriculum: Inquiring minds really do want to know: Using questioning to teach critical thinking. Teaching of Psychology, 22 (1) , 13-17.
McDade, S. A. (1995). Case study pedagogy to advance critical thinking. Teaching Psychology, 22(1), 9-10.
Oliver, H. & Utermohlen, R. (1995). An innovative teaching strategy: Using critical thinking to give students a guide to the future.(Eric Document Reproduction Services No. 389 702)
Robertson, J. F. & Rane-Szostak, D. (1996). Using dialogues to develop critical thinking skills: A practical approach. Journal of Adolescent & Adult Literacy, 39(7), 552-556.
Scriven, M. & Paul, R. (1996). Defining critical thinking: A draft statement for the National Council for Excellence in Critical Thinking. [On-line]. Available HTTP: http://www.criticalthinking.org/University/univlibrary/library.nclk
Strohm, S. M., & Baukus, R. A. (1995). Strategies for fostering critical thinking skills. Journalism and Mass Communication Educator, 50 (1), 55-62.
Underwood, M. K., & Wald, R. L. (1995). Conference-style learning: A method for fostering critical thinking with heart. Teaching Psychology, 22(1), 17-21.
Wade, C. (1995). Using writing to develop and assess critical thinking. Teaching of Psychology, 22(1), 24-28.

On the Internet

Carr, K. S. (1990). How can we teach critical thinking. Eric Digest. [On-line]. Available HTTP: http://ericps.ed.uiuc.edu/eece/pubs/digests/1990/carr90.html
The Center for Critical Thinking (1996). Home Page. Available HTTP: http://www.criticalthinking.org/University/
Ennis, Bob (No date). Critical thinking. [On-line], April 4, 1997. Available HTTP: http://www.cof.orst.edu/cof/teach/for442/ct.htm
Montclair State University (1995). Curriculum resource center. Critical thinking resources: An annotated bibliography. [On-line]. Available HTTP: http://www.montclair.edu/Pages/CRC/Bibliographies/CriticalThinking.html
No author, No date. Critical Thinking is ... [On-line], April 4, 1997. Available HTTP: http://library.usask.ca/ustudy/critical/
Sheridan, Marcia (No date). Internet education topics hotlink page. [On-line], April 4, 1997. Available HTTP: http://sun1.iusb.edu/~msherida/topics/critical.html

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Published: 11 January 2023

The effectiveness of collaborative problem solving in promoting students’ critical thinking: A meta-analysis based on empirical literature

Enwei Xu ORCID: orcid.org/0000-0001-6424-8169 1 ,
Wei Wang 1 &
Qingxia Wang 1

Humanities and Social Sciences Communications volume 10 , Article number: 16 ( 2023 ) Cite this article

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Collaborative problem-solving has been widely embraced in the classroom instruction of critical thinking, which is regarded as the core of curriculum reform based on key competencies in the field of education as well as a key competence for learners in the 21st century. However, the effectiveness of collaborative problem-solving in promoting students’ critical thinking remains uncertain. This current research presents the major findings of a meta-analysis of 36 pieces of the literature revealed in worldwide educational periodicals during the 21st century to identify the effectiveness of collaborative problem-solving in promoting students’ critical thinking and to determine, based on evidence, whether and to what extent collaborative problem solving can result in a rise or decrease in critical thinking. The findings show that (1) collaborative problem solving is an effective teaching approach to foster students’ critical thinking, with a significant overall effect size (ES = 0.82, z = 12.78, P < 0.01, 95% CI [0.69, 0.95]); (2) in respect to the dimensions of critical thinking, collaborative problem solving can significantly and successfully enhance students’ attitudinal tendencies (ES = 1.17, z = 7.62, P < 0.01, 95% CI[0.87, 1.47]); nevertheless, it falls short in terms of improving students’ cognitive skills, having only an upper-middle impact (ES = 0.70, z = 11.55, P < 0.01, 95% CI[0.58, 0.82]); and (3) the teaching type (chi 2 = 7.20, P < 0.05), intervention duration (chi 2 = 12.18, P < 0.01), subject area (chi 2 = 13.36, P < 0.05), group size (chi 2 = 8.77, P < 0.05), and learning scaffold (chi 2 = 9.03, P < 0.01) all have an impact on critical thinking, and they can be viewed as important moderating factors that affect how critical thinking develops. On the basis of these results, recommendations are made for further study and instruction to better support students’ critical thinking in the context of collaborative problem-solving.

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Introduction.

Although critical thinking has a long history in research, the concept of critical thinking, which is regarded as an essential competence for learners in the 21st century, has recently attracted more attention from researchers and teaching practitioners (National Research Council, 2012 ). Critical thinking should be the core of curriculum reform based on key competencies in the field of education (Peng and Deng, 2017 ) because students with critical thinking can not only understand the meaning of knowledge but also effectively solve practical problems in real life even after knowledge is forgotten (Kek and Huijser, 2011 ). The definition of critical thinking is not universal (Ennis, 1989 ; Castle, 2009 ; Niu et al., 2013 ). In general, the definition of critical thinking is a self-aware and self-regulated thought process (Facione, 1990 ; Niu et al., 2013 ). It refers to the cognitive skills needed to interpret, analyze, synthesize, reason, and evaluate information as well as the attitudinal tendency to apply these abilities (Halpern, 2001 ). The view that critical thinking can be taught and learned through curriculum teaching has been widely supported by many researchers (e.g., Kuncel, 2011 ; Leng and Lu, 2020 ), leading to educators’ efforts to foster it among students. In the field of teaching practice, there are three types of courses for teaching critical thinking (Ennis, 1989 ). The first is an independent curriculum in which critical thinking is taught and cultivated without involving the knowledge of specific disciplines; the second is an integrated curriculum in which critical thinking is integrated into the teaching of other disciplines as a clear teaching goal; and the third is a mixed curriculum in which critical thinking is taught in parallel to the teaching of other disciplines for mixed teaching training. Furthermore, numerous measuring tools have been developed by researchers and educators to measure critical thinking in the context of teaching practice. These include standardized measurement tools, such as WGCTA, CCTST, CCTT, and CCTDI, which have been verified by repeated experiments and are considered effective and reliable by international scholars (Facione and Facione, 1992 ). In short, descriptions of critical thinking, including its two dimensions of attitudinal tendency and cognitive skills, different types of teaching courses, and standardized measurement tools provide a complex normative framework for understanding, teaching, and evaluating critical thinking.

Cultivating critical thinking in curriculum teaching can start with a problem, and one of the most popular critical thinking instructional approaches is problem-based learning (Liu et al., 2020 ). Duch et al. ( 2001 ) noted that problem-based learning in group collaboration is progressive active learning, which can improve students’ critical thinking and problem-solving skills. Collaborative problem-solving is the organic integration of collaborative learning and problem-based learning, which takes learners as the center of the learning process and uses problems with poor structure in real-world situations as the starting point for the learning process (Liang et al., 2017 ). Students learn the knowledge needed to solve problems in a collaborative group, reach a consensus on problems in the field, and form solutions through social cooperation methods, such as dialogue, interpretation, questioning, debate, negotiation, and reflection, thus promoting the development of learners’ domain knowledge and critical thinking (Cindy, 2004 ; Liang et al., 2017 ).

Collaborative problem-solving has been widely used in the teaching practice of critical thinking, and several studies have attempted to conduct a systematic review and meta-analysis of the empirical literature on critical thinking from various perspectives. However, little attention has been paid to the impact of collaborative problem-solving on critical thinking. Therefore, the best approach for developing and enhancing critical thinking throughout collaborative problem-solving is to examine how to implement critical thinking instruction; however, this issue is still unexplored, which means that many teachers are incapable of better instructing critical thinking (Leng and Lu, 2020 ; Niu et al., 2013 ). For example, Huber ( 2016 ) provided the meta-analysis findings of 71 publications on gaining critical thinking over various time frames in college with the aim of determining whether critical thinking was truly teachable. These authors found that learners significantly improve their critical thinking while in college and that critical thinking differs with factors such as teaching strategies, intervention duration, subject area, and teaching type. The usefulness of collaborative problem-solving in fostering students’ critical thinking, however, was not determined by this study, nor did it reveal whether there existed significant variations among the different elements. A meta-analysis of 31 pieces of educational literature was conducted by Liu et al. ( 2020 ) to assess the impact of problem-solving on college students’ critical thinking. These authors found that problem-solving could promote the development of critical thinking among college students and proposed establishing a reasonable group structure for problem-solving in a follow-up study to improve students’ critical thinking. Additionally, previous empirical studies have reached inconclusive and even contradictory conclusions about whether and to what extent collaborative problem-solving increases or decreases critical thinking levels. As an illustration, Yang et al. ( 2008 ) carried out an experiment on the integrated curriculum teaching of college students based on a web bulletin board with the goal of fostering participants’ critical thinking in the context of collaborative problem-solving. These authors’ research revealed that through sharing, debating, examining, and reflecting on various experiences and ideas, collaborative problem-solving can considerably enhance students’ critical thinking in real-life problem situations. In contrast, collaborative problem-solving had a positive impact on learners’ interaction and could improve learning interest and motivation but could not significantly improve students’ critical thinking when compared to traditional classroom teaching, according to research by Naber and Wyatt ( 2014 ) and Sendag and Odabasi ( 2009 ) on undergraduate and high school students, respectively.

The above studies show that there is inconsistency regarding the effectiveness of collaborative problem-solving in promoting students’ critical thinking. Therefore, it is essential to conduct a thorough and trustworthy review to detect and decide whether and to what degree collaborative problem-solving can result in a rise or decrease in critical thinking. Meta-analysis is a quantitative analysis approach that is utilized to examine quantitative data from various separate studies that are all focused on the same research topic. This approach characterizes the effectiveness of its impact by averaging the effect sizes of numerous qualitative studies in an effort to reduce the uncertainty brought on by independent research and produce more conclusive findings (Lipsey and Wilson, 2001 ).

This paper used a meta-analytic approach and carried out a meta-analysis to examine the effectiveness of collaborative problem-solving in promoting students’ critical thinking in order to make a contribution to both research and practice. The following research questions were addressed by this meta-analysis:

What is the overall effect size of collaborative problem-solving in promoting students’ critical thinking and its impact on the two dimensions of critical thinking (i.e., attitudinal tendency and cognitive skills)?

How are the disparities between the study conclusions impacted by various moderating variables if the impacts of various experimental designs in the included studies are heterogeneous?

This research followed the strict procedures (e.g., database searching, identification, screening, eligibility, merging, duplicate removal, and analysis of included studies) of Cooper’s ( 2010 ) proposed meta-analysis approach for examining quantitative data from various separate studies that are all focused on the same research topic. The relevant empirical research that appeared in worldwide educational periodicals within the 21st century was subjected to this meta-analysis using Rev-Man 5.4. The consistency of the data extracted separately by two researchers was tested using Cohen’s kappa coefficient, and a publication bias test and a heterogeneity test were run on the sample data to ascertain the quality of this meta-analysis.

Data sources and search strategies

There were three stages to the data collection process for this meta-analysis, as shown in Fig. 1 , which shows the number of articles included and eliminated during the selection process based on the statement and study eligibility criteria.

This flowchart shows the number of records identified, included and excluded in the article.

First, the databases used to systematically search for relevant articles were the journal papers of the Web of Science Core Collection and the Chinese Core source journal, as well as the Chinese Social Science Citation Index (CSSCI) source journal papers included in CNKI. These databases were selected because they are credible platforms that are sources of scholarly and peer-reviewed information with advanced search tools and contain literature relevant to the subject of our topic from reliable researchers and experts. The search string with the Boolean operator used in the Web of Science was “TS = (((“critical thinking” or “ct” and “pretest” or “posttest”) or (“critical thinking” or “ct” and “control group” or “quasi experiment” or “experiment”)) and (“collaboration” or “collaborative learning” or “CSCL”) and (“problem solving” or “problem-based learning” or “PBL”))”. The research area was “Education Educational Research”, and the search period was “January 1, 2000, to December 30, 2021”. A total of 412 papers were obtained. The search string with the Boolean operator used in the CNKI was “SU = (‘critical thinking’*‘collaboration’ + ‘critical thinking’*‘collaborative learning’ + ‘critical thinking’*‘CSCL’ + ‘critical thinking’*‘problem solving’ + ‘critical thinking’*‘problem-based learning’ + ‘critical thinking’*‘PBL’ + ‘critical thinking’*‘problem oriented’) AND FT = (‘experiment’ + ‘quasi experiment’ + ‘pretest’ + ‘posttest’ + ‘empirical study’)” (translated into Chinese when searching). A total of 56 studies were found throughout the search period of “January 2000 to December 2021”. From the databases, all duplicates and retractions were eliminated before exporting the references into Endnote, a program for managing bibliographic references. In all, 466 studies were found.

Second, the studies that matched the inclusion and exclusion criteria for the meta-analysis were chosen by two researchers after they had reviewed the abstracts and titles of the gathered articles, yielding a total of 126 studies.

Third, two researchers thoroughly reviewed each included article’s whole text in accordance with the inclusion and exclusion criteria. Meanwhile, a snowball search was performed using the references and citations of the included articles to ensure complete coverage of the articles. Ultimately, 36 articles were kept.

Two researchers worked together to carry out this entire process, and a consensus rate of almost 94.7% was reached after discussion and negotiation to clarify any emerging differences.

Eligibility criteria

Since not all the retrieved studies matched the criteria for this meta-analysis, eligibility criteria for both inclusion and exclusion were developed as follows:

The publication language of the included studies was limited to English and Chinese, and the full text could be obtained. Articles that did not meet the publication language and articles not published between 2000 and 2021 were excluded.

The research design of the included studies must be empirical and quantitative studies that can assess the effect of collaborative problem-solving on the development of critical thinking. Articles that could not identify the causal mechanisms by which collaborative problem-solving affects critical thinking, such as review articles and theoretical articles, were excluded.

The research method of the included studies must feature a randomized control experiment or a quasi-experiment, or a natural experiment, which have a higher degree of internal validity with strong experimental designs and can all plausibly provide evidence that critical thinking and collaborative problem-solving are causally related. Articles with non-experimental research methods, such as purely correlational or observational studies, were excluded.

The participants of the included studies were only students in school, including K-12 students and college students. Articles in which the participants were non-school students, such as social workers or adult learners, were excluded.

The research results of the included studies must mention definite signs that may be utilized to gauge critical thinking’s impact (e.g., sample size, mean value, or standard deviation). Articles that lacked specific measurement indicators for critical thinking and could not calculate the effect size were excluded.

Data coding design

In order to perform a meta-analysis, it is necessary to collect the most important information from the articles, codify that information’s properties, and convert descriptive data into quantitative data. Therefore, this study designed a data coding template (see Table 1 ). Ultimately, 16 coding fields were retained.

The designed data-coding template consisted of three pieces of information. Basic information about the papers was included in the descriptive information: the publishing year, author, serial number, and title of the paper.

The variable information for the experimental design had three variables: the independent variable (instruction method), the dependent variable (critical thinking), and the moderating variable (learning stage, teaching type, intervention duration, learning scaffold, group size, measuring tool, and subject area). Depending on the topic of this study, the intervention strategy, as the independent variable, was coded into collaborative and non-collaborative problem-solving. The dependent variable, critical thinking, was coded as a cognitive skill and an attitudinal tendency. And seven moderating variables were created by grouping and combining the experimental design variables discovered within the 36 studies (see Table 1 ), where learning stages were encoded as higher education, high school, middle school, and primary school or lower; teaching types were encoded as mixed courses, integrated courses, and independent courses; intervention durations were encoded as 0–1 weeks, 1–4 weeks, 4–12 weeks, and more than 12 weeks; group sizes were encoded as 2–3 persons, 4–6 persons, 7–10 persons, and more than 10 persons; learning scaffolds were encoded as teacher-supported learning scaffold, technique-supported learning scaffold, and resource-supported learning scaffold; measuring tools were encoded as standardized measurement tools (e.g., WGCTA, CCTT, CCTST, and CCTDI) and self-adapting measurement tools (e.g., modified or made by researchers); and subject areas were encoded according to the specific subjects used in the 36 included studies.

The data information contained three metrics for measuring critical thinking: sample size, average value, and standard deviation. It is vital to remember that studies with various experimental designs frequently adopt various formulas to determine the effect size. And this paper used Morris’ proposed standardized mean difference (SMD) calculation formula ( 2008 , p. 369; see Supplementary Table S3 ).

Procedure for extracting and coding data

According to the data coding template (see Table 1 ), the 36 papers’ information was retrieved by two researchers, who then entered them into Excel (see Supplementary Table S1 ). The results of each study were extracted separately in the data extraction procedure if an article contained numerous studies on critical thinking, or if a study assessed different critical thinking dimensions. For instance, Tiwari et al. ( 2010 ) used four time points, which were viewed as numerous different studies, to examine the outcomes of critical thinking, and Chen ( 2013 ) included the two outcome variables of attitudinal tendency and cognitive skills, which were regarded as two studies. After discussion and negotiation during data extraction, the two researchers’ consistency test coefficients were roughly 93.27%. Supplementary Table S2 details the key characteristics of the 36 included articles with 79 effect quantities, including descriptive information (e.g., the publishing year, author, serial number, and title of the paper), variable information (e.g., independent variables, dependent variables, and moderating variables), and data information (e.g., mean values, standard deviations, and sample size). Following that, testing for publication bias and heterogeneity was done on the sample data using the Rev-Man 5.4 software, and then the test results were used to conduct a meta-analysis.

Publication bias test

When the sample of studies included in a meta-analysis does not accurately reflect the general status of research on the relevant subject, publication bias is said to be exhibited in this research. The reliability and accuracy of the meta-analysis may be impacted by publication bias. Due to this, the meta-analysis needs to check the sample data for publication bias (Stewart et al., 2006 ). A popular method to check for publication bias is the funnel plot; and it is unlikely that there will be publishing bias when the data are equally dispersed on either side of the average effect size and targeted within the higher region. The data are equally dispersed within the higher portion of the efficient zone, consistent with the funnel plot connected with this analysis (see Fig. 2 ), indicating that publication bias is unlikely in this situation.

This funnel plot shows the result of publication bias of 79 effect quantities across 36 studies.

Heterogeneity test

To select the appropriate effect models for the meta-analysis, one might use the results of a heterogeneity test on the data effect sizes. In a meta-analysis, it is common practice to gauge the degree of data heterogeneity using the I 2 value, and I 2 ≥ 50% is typically understood to denote medium-high heterogeneity, which calls for the adoption of a random effect model; if not, a fixed effect model ought to be applied (Lipsey and Wilson, 2001 ). The findings of the heterogeneity test in this paper (see Table 2 ) revealed that I 2 was 86% and displayed significant heterogeneity ( P < 0.01). To ensure accuracy and reliability, the overall effect size ought to be calculated utilizing the random effect model.

The analysis of the overall effect size

This meta-analysis utilized a random effect model to examine 79 effect quantities from 36 studies after eliminating heterogeneity. In accordance with Cohen’s criterion (Cohen, 1992 ), it is abundantly clear from the analysis results, which are shown in the forest plot of the overall effect (see Fig. 3 ), that the cumulative impact size of cooperative problem-solving is 0.82, which is statistically significant ( z = 12.78, P < 0.01, 95% CI [0.69, 0.95]), and can encourage learners to practice critical thinking.

This forest plot shows the analysis result of the overall effect size across 36 studies.

In addition, this study examined two distinct dimensions of critical thinking to better understand the precise contributions that collaborative problem-solving makes to the growth of critical thinking. The findings (see Table 3 ) indicate that collaborative problem-solving improves cognitive skills (ES = 0.70) and attitudinal tendency (ES = 1.17), with significant intergroup differences (chi 2 = 7.95, P < 0.01). Although collaborative problem-solving improves both dimensions of critical thinking, it is essential to point out that the improvements in students’ attitudinal tendency are much more pronounced and have a significant comprehensive effect (ES = 1.17, z = 7.62, P < 0.01, 95% CI [0.87, 1.47]), whereas gains in learners’ cognitive skill are slightly improved and are just above average. (ES = 0.70, z = 11.55, P < 0.01, 95% CI [0.58, 0.82]).

The analysis of moderator effect size

The whole forest plot’s 79 effect quantities underwent a two-tailed test, which revealed significant heterogeneity ( I 2 = 86%, z = 12.78, P < 0.01), indicating differences between various effect sizes that may have been influenced by moderating factors other than sampling error. Therefore, exploring possible moderating factors that might produce considerable heterogeneity was done using subgroup analysis, such as the learning stage, learning scaffold, teaching type, group size, duration of the intervention, measuring tool, and the subject area included in the 36 experimental designs, in order to further explore the key factors that influence critical thinking. The findings (see Table 4 ) indicate that various moderating factors have advantageous effects on critical thinking. In this situation, the subject area (chi 2 = 13.36, P < 0.05), group size (chi 2 = 8.77, P < 0.05), intervention duration (chi 2 = 12.18, P < 0.01), learning scaffold (chi 2 = 9.03, P < 0.01), and teaching type (chi 2 = 7.20, P < 0.05) are all significant moderators that can be applied to support the cultivation of critical thinking. However, since the learning stage and the measuring tools did not significantly differ among intergroup (chi 2 = 3.15, P = 0.21 > 0.05, and chi 2 = 0.08, P = 0.78 > 0.05), we are unable to explain why these two factors are crucial in supporting the cultivation of critical thinking in the context of collaborative problem-solving. These are the precise outcomes, as follows:

Various learning stages influenced critical thinking positively, without significant intergroup differences (chi 2 = 3.15, P = 0.21 > 0.05). High school was first on the list of effect sizes (ES = 1.36, P < 0.01), then higher education (ES = 0.78, P < 0.01), and middle school (ES = 0.73, P < 0.01). These results show that, despite the learning stage’s beneficial influence on cultivating learners’ critical thinking, we are unable to explain why it is essential for cultivating critical thinking in the context of collaborative problem-solving.

Different teaching types had varying degrees of positive impact on critical thinking, with significant intergroup differences (chi 2 = 7.20, P < 0.05). The effect size was ranked as follows: mixed courses (ES = 1.34, P < 0.01), integrated courses (ES = 0.81, P < 0.01), and independent courses (ES = 0.27, P < 0.01). These results indicate that the most effective approach to cultivate critical thinking utilizing collaborative problem solving is through the teaching type of mixed courses.

Various intervention durations significantly improved critical thinking, and there were significant intergroup differences (chi 2 = 12.18, P < 0.01). The effect sizes related to this variable showed a tendency to increase with longer intervention durations. The improvement in critical thinking reached a significant level (ES = 0.85, P < 0.01) after more than 12 weeks of training. These findings indicate that the intervention duration and critical thinking’s impact are positively correlated, with a longer intervention duration having a greater effect.

Different learning scaffolds influenced critical thinking positively, with significant intergroup differences (chi 2 = 9.03, P < 0.01). The resource-supported learning scaffold (ES = 0.69, P < 0.01) acquired a medium-to-higher level of impact, the technique-supported learning scaffold (ES = 0.63, P < 0.01) also attained a medium-to-higher level of impact, and the teacher-supported learning scaffold (ES = 0.92, P < 0.01) displayed a high level of significant impact. These results show that the learning scaffold with teacher support has the greatest impact on cultivating critical thinking.

Various group sizes influenced critical thinking positively, and the intergroup differences were statistically significant (chi 2 = 8.77, P < 0.05). Critical thinking showed a general declining trend with increasing group size. The overall effect size of 2–3 people in this situation was the biggest (ES = 0.99, P < 0.01), and when the group size was greater than 7 people, the improvement in critical thinking was at the lower-middle level (ES < 0.5, P < 0.01). These results show that the impact on critical thinking is positively connected with group size, and as group size grows, so does the overall impact.

Various measuring tools influenced critical thinking positively, with significant intergroup differences (chi 2 = 0.08, P = 0.78 > 0.05). In this situation, the self-adapting measurement tools obtained an upper-medium level of effect (ES = 0.78), whereas the complete effect size of the standardized measurement tools was the largest, achieving a significant level of effect (ES = 0.84, P < 0.01). These results show that, despite the beneficial influence of the measuring tool on cultivating critical thinking, we are unable to explain why it is crucial in fostering the growth of critical thinking by utilizing the approach of collaborative problem-solving.

Different subject areas had a greater impact on critical thinking, and the intergroup differences were statistically significant (chi 2 = 13.36, P < 0.05). Mathematics had the greatest overall impact, achieving a significant level of effect (ES = 1.68, P < 0.01), followed by science (ES = 1.25, P < 0.01) and medical science (ES = 0.87, P < 0.01), both of which also achieved a significant level of effect. Programming technology was the least effective (ES = 0.39, P < 0.01), only having a medium-low degree of effect compared to education (ES = 0.72, P < 0.01) and other fields (such as language, art, and social sciences) (ES = 0.58, P < 0.01). These results suggest that scientific fields (e.g., mathematics, science) may be the most effective subject areas for cultivating critical thinking utilizing the approach of collaborative problem-solving.

The effectiveness of collaborative problem solving with regard to teaching critical thinking

According to this meta-analysis, using collaborative problem-solving as an intervention strategy in critical thinking teaching has a considerable amount of impact on cultivating learners’ critical thinking as a whole and has a favorable promotional effect on the two dimensions of critical thinking. According to certain studies, collaborative problem solving, the most frequently used critical thinking teaching strategy in curriculum instruction can considerably enhance students’ critical thinking (e.g., Liang et al., 2017 ; Liu et al., 2020 ; Cindy, 2004 ). This meta-analysis provides convergent data support for the above research views. Thus, the findings of this meta-analysis not only effectively address the first research query regarding the overall effect of cultivating critical thinking and its impact on the two dimensions of critical thinking (i.e., attitudinal tendency and cognitive skills) utilizing the approach of collaborative problem-solving, but also enhance our confidence in cultivating critical thinking by using collaborative problem-solving intervention approach in the context of classroom teaching.

Furthermore, the associated improvements in attitudinal tendency are much stronger, but the corresponding improvements in cognitive skill are only marginally better. According to certain studies, cognitive skill differs from the attitudinal tendency in classroom instruction; the cultivation and development of the former as a key ability is a process of gradual accumulation, while the latter as an attitude is affected by the context of the teaching situation (e.g., a novel and exciting teaching approach, challenging and rewarding tasks) (Halpern, 2001 ; Wei and Hong, 2022 ). Collaborative problem-solving as a teaching approach is exciting and interesting, as well as rewarding and challenging; because it takes the learners as the focus and examines problems with poor structure in real situations, and it can inspire students to fully realize their potential for problem-solving, which will significantly improve their attitudinal tendency toward solving problems (Liu et al., 2020 ). Similar to how collaborative problem-solving influences attitudinal tendency, attitudinal tendency impacts cognitive skill when attempting to solve a problem (Liu et al., 2020 ; Zhang et al., 2022 ), and stronger attitudinal tendencies are associated with improved learning achievement and cognitive ability in students (Sison, 2008 ; Zhang et al., 2022 ). It can be seen that the two specific dimensions of critical thinking as well as critical thinking as a whole are affected by collaborative problem-solving, and this study illuminates the nuanced links between cognitive skills and attitudinal tendencies with regard to these two dimensions of critical thinking. To fully develop students’ capacity for critical thinking, future empirical research should pay closer attention to cognitive skills.

The moderating effects of collaborative problem solving with regard to teaching critical thinking

In order to further explore the key factors that influence critical thinking, exploring possible moderating effects that might produce considerable heterogeneity was done using subgroup analysis. The findings show that the moderating factors, such as the teaching type, learning stage, group size, learning scaffold, duration of the intervention, measuring tool, and the subject area included in the 36 experimental designs, could all support the cultivation of collaborative problem-solving in critical thinking. Among them, the effect size differences between the learning stage and measuring tool are not significant, which does not explain why these two factors are crucial in supporting the cultivation of critical thinking utilizing the approach of collaborative problem-solving.

In terms of the learning stage, various learning stages influenced critical thinking positively without significant intergroup differences, indicating that we are unable to explain why it is crucial in fostering the growth of critical thinking.

Although high education accounts for 70.89% of all empirical studies performed by researchers, high school may be the appropriate learning stage to foster students’ critical thinking by utilizing the approach of collaborative problem-solving since it has the largest overall effect size. This phenomenon may be related to student’s cognitive development, which needs to be further studied in follow-up research.

With regard to teaching type, mixed course teaching may be the best teaching method to cultivate students’ critical thinking. Relevant studies have shown that in the actual teaching process if students are trained in thinking methods alone, the methods they learn are isolated and divorced from subject knowledge, which is not conducive to their transfer of thinking methods; therefore, if students’ thinking is trained only in subject teaching without systematic method training, it is challenging to apply to real-world circumstances (Ruggiero, 2012 ; Hu and Liu, 2015 ). Teaching critical thinking as mixed course teaching in parallel to other subject teachings can achieve the best effect on learners’ critical thinking, and explicit critical thinking instruction is more effective than less explicit critical thinking instruction (Bensley and Spero, 2014 ).

In terms of the intervention duration, with longer intervention times, the overall effect size shows an upward tendency. Thus, the intervention duration and critical thinking’s impact are positively correlated. Critical thinking, as a key competency for students in the 21st century, is difficult to get a meaningful improvement in a brief intervention duration. Instead, it could be developed over a lengthy period of time through consistent teaching and the progressive accumulation of knowledge (Halpern, 2001 ; Hu and Liu, 2015 ). Therefore, future empirical studies ought to take these restrictions into account throughout a longer period of critical thinking instruction.

With regard to group size, a group size of 2–3 persons has the highest effect size, and the comprehensive effect size decreases with increasing group size in general. This outcome is in line with some research findings; as an example, a group composed of two to four members is most appropriate for collaborative learning (Schellens and Valcke, 2006 ). However, the meta-analysis results also indicate that once the group size exceeds 7 people, small groups cannot produce better interaction and performance than large groups. This may be because the learning scaffolds of technique support, resource support, and teacher support improve the frequency and effectiveness of interaction among group members, and a collaborative group with more members may increase the diversity of views, which is helpful to cultivate critical thinking utilizing the approach of collaborative problem-solving.

With regard to the learning scaffold, the three different kinds of learning scaffolds can all enhance critical thinking. Among them, the teacher-supported learning scaffold has the largest overall effect size, demonstrating the interdependence of effective learning scaffolds and collaborative problem-solving. This outcome is in line with some research findings; as an example, a successful strategy is to encourage learners to collaborate, come up with solutions, and develop critical thinking skills by using learning scaffolds (Reiser, 2004 ; Xu et al., 2022 ); learning scaffolds can lower task complexity and unpleasant feelings while also enticing students to engage in learning activities (Wood et al., 2006 ); learning scaffolds are designed to assist students in using learning approaches more successfully to adapt the collaborative problem-solving process, and the teacher-supported learning scaffolds have the greatest influence on critical thinking in this process because they are more targeted, informative, and timely (Xu et al., 2022 ).

With respect to the measuring tool, despite the fact that standardized measurement tools (such as the WGCTA, CCTT, and CCTST) have been acknowledged as trustworthy and effective by worldwide experts, only 54.43% of the research included in this meta-analysis adopted them for assessment, and the results indicated no intergroup differences. These results suggest that not all teaching circumstances are appropriate for measuring critical thinking using standardized measurement tools. “The measuring tools for measuring thinking ability have limits in assessing learners in educational situations and should be adapted appropriately to accurately assess the changes in learners’ critical thinking.”, according to Simpson and Courtney ( 2002 , p. 91). As a result, in order to more fully and precisely gauge how learners’ critical thinking has evolved, we must properly modify standardized measuring tools based on collaborative problem-solving learning contexts.

With regard to the subject area, the comprehensive effect size of science departments (e.g., mathematics, science, medical science) is larger than that of language arts and social sciences. Some recent international education reforms have noted that critical thinking is a basic part of scientific literacy. Students with scientific literacy can prove the rationality of their judgment according to accurate evidence and reasonable standards when they face challenges or poorly structured problems (Kyndt et al., 2013 ), which makes critical thinking crucial for developing scientific understanding and applying this understanding to practical problem solving for problems related to science, technology, and society (Yore et al., 2007 ).

Suggestions for critical thinking teaching

Other than those stated in the discussion above, the following suggestions are offered for critical thinking instruction utilizing the approach of collaborative problem-solving.

First, teachers should put a special emphasis on the two core elements, which are collaboration and problem-solving, to design real problems based on collaborative situations. This meta-analysis provides evidence to support the view that collaborative problem-solving has a strong synergistic effect on promoting students’ critical thinking. Asking questions about real situations and allowing learners to take part in critical discussions on real problems during class instruction are key ways to teach critical thinking rather than simply reading speculative articles without practice (Mulnix, 2012 ). Furthermore, the improvement of students’ critical thinking is realized through cognitive conflict with other learners in the problem situation (Yang et al., 2008 ). Consequently, it is essential for teachers to put a special emphasis on the two core elements, which are collaboration and problem-solving, and design real problems and encourage students to discuss, negotiate, and argue based on collaborative problem-solving situations.

Second, teachers should design and implement mixed courses to cultivate learners’ critical thinking, utilizing the approach of collaborative problem-solving. Critical thinking can be taught through curriculum instruction (Kuncel, 2011 ; Leng and Lu, 2020 ), with the goal of cultivating learners’ critical thinking for flexible transfer and application in real problem-solving situations. This meta-analysis shows that mixed course teaching has a highly substantial impact on the cultivation and promotion of learners’ critical thinking. Therefore, teachers should design and implement mixed course teaching with real collaborative problem-solving situations in combination with the knowledge content of specific disciplines in conventional teaching, teach methods and strategies of critical thinking based on poorly structured problems to help students master critical thinking, and provide practical activities in which students can interact with each other to develop knowledge construction and critical thinking utilizing the approach of collaborative problem-solving.

Third, teachers should be more trained in critical thinking, particularly preservice teachers, and they also should be conscious of the ways in which teachers’ support for learning scaffolds can promote critical thinking. The learning scaffold supported by teachers had the greatest impact on learners’ critical thinking, in addition to being more directive, targeted, and timely (Wood et al., 2006 ). Critical thinking can only be effectively taught when teachers recognize the significance of critical thinking for students’ growth and use the proper approaches while designing instructional activities (Forawi, 2016 ). Therefore, with the intention of enabling teachers to create learning scaffolds to cultivate learners’ critical thinking utilizing the approach of collaborative problem solving, it is essential to concentrate on the teacher-supported learning scaffolds and enhance the instruction for teaching critical thinking to teachers, especially preservice teachers.

Implications and limitations

There are certain limitations in this meta-analysis, but future research can correct them. First, the search languages were restricted to English and Chinese, so it is possible that pertinent studies that were written in other languages were overlooked, resulting in an inadequate number of articles for review. Second, these data provided by the included studies are partially missing, such as whether teachers were trained in the theory and practice of critical thinking, the average age and gender of learners, and the differences in critical thinking among learners of various ages and genders. Third, as is typical for review articles, more studies were released while this meta-analysis was being done; therefore, it had a time limit. With the development of relevant research, future studies focusing on these issues are highly relevant and needed.

Conclusions

The subject of the magnitude of collaborative problem-solving’s impact on fostering students’ critical thinking, which received scant attention from other studies, was successfully addressed by this study. The question of the effectiveness of collaborative problem-solving in promoting students’ critical thinking was addressed in this study, which addressed a topic that had gotten little attention in earlier research. The following conclusions can be made:

Regarding the results obtained, collaborative problem solving is an effective teaching approach to foster learners’ critical thinking, with a significant overall effect size (ES = 0.82, z = 12.78, P < 0.01, 95% CI [0.69, 0.95]). With respect to the dimensions of critical thinking, collaborative problem-solving can significantly and effectively improve students’ attitudinal tendency, and the comprehensive effect is significant (ES = 1.17, z = 7.62, P < 0.01, 95% CI [0.87, 1.47]); nevertheless, it falls short in terms of improving students’ cognitive skills, having only an upper-middle impact (ES = 0.70, z = 11.55, P < 0.01, 95% CI [0.58, 0.82]).

As demonstrated by both the results and the discussion, there are varying degrees of beneficial effects on students’ critical thinking from all seven moderating factors, which were found across 36 studies. In this context, the teaching type (chi 2 = 7.20, P < 0.05), intervention duration (chi 2 = 12.18, P < 0.01), subject area (chi 2 = 13.36, P < 0.05), group size (chi 2 = 8.77, P < 0.05), and learning scaffold (chi 2 = 9.03, P < 0.01) all have a positive impact on critical thinking, and they can be viewed as important moderating factors that affect how critical thinking develops. Since the learning stage (chi 2 = 3.15, P = 0.21 > 0.05) and measuring tools (chi 2 = 0.08, P = 0.78 > 0.05) did not demonstrate any significant intergroup differences, we are unable to explain why these two factors are crucial in supporting the cultivation of critical thinking in the context of collaborative problem-solving.

Data availability

All data generated or analyzed during this study are included within the article and its supplementary information files, and the supplementary information files are available in the Dataverse repository: https://doi.org/10.7910/DVN/IPFJO6 .

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Acknowledgements

This research was supported by the graduate scientific research and innovation project of Xinjiang Uygur Autonomous Region named “Research on in-depth learning of high school information technology courses for the cultivation of computing thinking” (No. XJ2022G190) and the independent innovation fund project for doctoral students of the College of Educational Science of Xinjiang Normal University named “Research on project-based teaching of high school information technology courses from the perspective of discipline core literacy” (No. XJNUJKYA2003).

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Xu, E., Wang, W. & Wang, Q. The effectiveness of collaborative problem solving in promoting students’ critical thinking: A meta-analysis based on empirical literature. Humanit Soc Sci Commun 10 , 16 (2023). https://doi.org/10.1057/s41599-023-01508-1

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Critical thinking for college, career, and citizenship

Subscribe to the center for universal education bulletin, diane f. halpern dfh diane f. halpern diane f. halpern is the dean of social sciences, emerita at the minerva schools at kgi and a past president of the american psychological association and the society for teaching of psychology. diane has published hundreds of articles and many books including, thought and knowledge: an introduction to critical thinking (5th ed., 2014); sex differences in cognitive abilities (4th ed.), and women at the top: powerful leaders tell us how to combine work and family (co-authored with fanny cheung). her other recent books include psychological science (5th ed. with michael gazzaniga and todd heatherton) and the edited book, undergraduate education in psychology: a blueprint for the future of the discipline..

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Editor’s note: In the “ Becoming Brilliant ” blog series, experts explore the six competencies that reflect how children learn and grow as laid out by Kathy Hirsh-Pasek and Roberta Golinkoff in their new book “ Becoming Brilliant .”

Education is about the future—students learn in schools and other places based on two underlying assumptions: (a) What they learn today will be recalled sometime in the future when the knowledge is needed, and (b) today’s learning will transfer across time, place, and space. Teachers are preparing students for higher levels of education, careers that may not even exist today, and the increasingly complex world of citizenship—voting intelligently, recognizing, and supporting good options for societal problems. With the amount of information increasing exponentially and new information often replacing what we formerly believed to be true, the twin abilities of learning well and thinking critically are essential skills for students at every level.

But what does it mean to think critically?

Critical thinking is using the skills or strategies that that are most likely to lead to a desired outcome. It is purposeful, reasoned, and goal-directed. It is the sort of thinking we should be engaging in when deciding what and whom to believe, which of two job offers to accept, or whether vaccinations really do cause autism. It is different from, but often relies upon, simple recall (e.g., what does five plus seven equal?), unsupported opinions (e.g., I like vanilla ice cream), and automated actions (e.g., stopping at a red light).

Critical thinking has two main components: understanding information at a deep, meaningful level, and overcoming fallacies and biases. For example, suppose you are learning about a new theory. You could learn to recite the definition of the theory with little meaning (e.g., photosynthesis is a process used by plants to synthesize foods from carbon dioxide and water using sunlight) or you could process it at a deeper level. There are many learning activities that facilitate deep level processing. For example, you could write out the theory in your own words, explain it to someone who is not familiar with it, and provide evidence for (and possibly against) the theory. What is it explaining? What theory is it replacing (if applicable)? What is its history? How could it be applied to an everyday problem? If you could answer these questions, the theory would become easier to recall, and you could use it to generate new theories or see flaws or strengths in other theories. Argument analysis is another example of deep processing. Critical thinkers learn to identify the conclusion, the evidence, and reasoning used to support the conclusion. They also look for assumptions, counterevidence, and limiting conditions (times when the conclusion may not apply).

Some educators prefer to consider critical thinking as “debiasing” or recognizing and resisting fallacies. Suppose someone asks you if children become brilliant because of their nature or nurture. This is an example of the “either-or” fallacy, and anyone who is trained to recognize it can avoid its pitfalls. Similarly, critical thinkers recognize when correlational data are being used to make causal claims. For example, an article in the Los Angeles Times told readers that if they want their children to get good grades they should make sure that their kids’ friends get good grades. But after reading the article, it was apparent that children with good grades had friends with good grades, and children with poor grades had friends with poor grades. But nowhere did it show that kids with poor grades would improve by friending kids with good grades. The data were correlational, which any critical thinker should recognize.

If you are thinking critically, and I hope you are, you may be wondering: Can we teach students to be better thinkers? The answer is a resounding “yes.” There is a large amount of research literature (reviewed in my book, “Thought and Knowledge: An Introduction to Critical Thinking”). In one project that I conducted with a doctoral student, who is now Dr. Lisa Marin, we went into very low-performing high schools in California. There were several studies, some that involved parents and some in which classes were assigned at random with different critical thinking instruction. We found that when critical thinking skills were deliberately taught (not as an ancillary to other content), students improved in their abilities to think critically. There are many studies showing substantial gains in critical thinking in college students, the military, and other populations as well. Critical thinking can be taught at any grade, as long as it is taught in a way that is developmentally appropriate.

Finally, critical thinking has a self-reflective component. Good thinkers consider the steps of problem solving, how they are mentally approaching a problem, and the quality of their conclusion or solution.

Those who care about the future for today’s children understand that the jobs of the future will require the ability to think critically. So let’s be sure that our students are ready for college, careers, and citizenship by including deliberate instruction in critical thinking. It is probably the most difficult topic to teach and learn, but it is also the most important.

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How Higher Education Fosters Critical Thinking and Problem-Solving Skills

“Education is not the learning of facts, but the training of the mind to think.” –Albert Einstein

Critical thinking and problem-solving are the most essential skills that any college student can develop. If students are unable to think through an issue critically, they will be ill-equipped to distinguish between truth and deception. Valid conclusions can only come from the pursuit of truth. In comparison, problem-solving skills give an individual the tools to do something with the information they have gained. This combined skillset is invaluable in the professional world and everyday life.

If these skills are so important, what is the best way to foster and develop them? Education is a start. Whether it’s higher education through attending a university or self-education through personal study, the only way to develop these skills is through active participation in learning. Almost all colleges and universities cite critical thinking as one of their core objectives. So, what are the best ways for higher education to help students grow and develop these skills?

From the idea that teaching critical thinking is impossible to new approaches in teaching styles, the last two decades have produced varying theories on critical thinking. One fact that is certain, however, is that problem-solving is a natural outgrowth of critical thinking. Although there is no argument over whether critical thinking is important, there are multiple perspectives on the best ways to develop this skill. Most research, however, seems to support a hands-on, interactive approach.

Andreucci-Annunziata et al. (2023) suggests that “pedagogical approaches to critical thinking have been synthesized into four types: general method; infusion; immersion and mixed method.” The general method is teaching critical thinking as its own subject, infusion is teaching critical thinking in relation to a specific subject matter, immersion is teaching a subject in a way that encourages critical thinking, and “the mixed method consists of a combination of the general method and the infusion or immersion method.” These methods are combined with instructional strategies such as writing exercises, in-class discussion, brainstorming, using online discussion forums, etc. With so many methods and strategies available what is the best approach for educators? Two strategies seem to be gaining momentum: Decision-Based Learning and Discussion-Based Learning.

Decision-Based Learning

Decision-Based Learning (DBL), a problem-solving strategy, is a new possibility. According to one study DBL teaches students how to look at the components of a problem and come to a rational decision. Evidence shows that there is a correlation between the development of problem-solving and critical thinking skills (Plummer et al. 2022). This style encourages students to look at all sides of an issue and come to a valid conclusion.

Discussion-Based Learning

On the other hand, Discussion-Based Learning also shows promise. Various universities across the U.S. and Canada cite Discussion-Based Learning, or a form of it, as one of their primary teaching methods. Examples include the University of Calgary, Brown University, and Columbia University. The fact that discussion plays a major role in developing critical thinking and problem-solving skills is indisputable. Studies of different methods continue to support Discussion-Based Learning as one of the primary ways for students to develop both skills. In-class discussion and thought-provoking questions continue to promote the development of critical thinking within the classroom.

Are Educators Doing a Good Job?

Some researchers and professionals argue that colleges are failing to teach their students the art of critical thinking. One researcher suggests that colleges and universities fail to understand that there is a difference between “teaching students what to think (highly educated) and teaching them how to think (better educated)” (Flores, Kevin L., et al.). A student can fill their mind with countless pieces of information without developing the skills needed to interpret and apply that information.

To combat this tendency, educators must challenge students to think through issues themselves. When students are given the tools needed to think critically, a new world of knowledge is opened to them. Regardless of varying strategies, education needs a firm foundation to stand on. At Maranatha, that foundation is the Bible.

What Makes Maranatha Different?

Education firmly grounded in biblical truth does not leave room for conclusions drawn from emotion. Instead, biblically grounded education creates an environment that fosters critical thinking and a pursuit of the truth. At Maranatha, professors understand the value of preparing students to be critical thinkers. In a world that seeks to reject a biblical worldview through science and philosophy, it is more important than ever for students to graduate grounded in biblical principles.

Mr. Nathan Huffstutler, Associate Professor in the Department of Humanities, explains, “A biblical worldview emphasizes truth. God is a God of truth. If you believe that God is a God of truth, that will make you more passionate in your search for truth. When we deal with current events or with history, it’s not just opinions that we’re trying to find. That doesn’t mean that some questions don’t have nuance or gray areas. There are some issues that are very complex, but a biblical worldview aids in the pursuit of truth even in difficult subjects.”

Without the ability to analyze ideas through a biblical lens, students will be tossed about by every new theory, unable to distinguish between the truth and lies disguised as truth. Only when students understand how to think will they be able to properly analyze ideas and come to their own conclusions.

Mr. Huffstutler further explains how he implements the instruction of critical thinking into the classroom, “I personally use discussion questions. I’ll give a question and then require students to back up their answers with evidence. They must demonstrate in their answers that it is not just their opinion. I strive to show my students how to back up their statements based on facts and support from the text. That’s what critical thinking is.”

Discussion is the first step in the process of developing critical thinking. In-class discussion has the power to sharpen minds as students are forced to think through their reasoning and evidence. Current and past students are reaping the benefits of an education that emphasizes the development of this invaluable skill.

Hannah Mayes (’20 Communication Arts—Theatre), a teacher at Maranatha Baptist Academy and Adjunct Professor at the University, shares her experience, “The focus Maranatha professors have on teaching students how to think is particularly evident when teachers would continuously ask us, ‘Why?’ Professors encouraged us to evaluate our answers in light of a biblical worldview, but not merely so we could provide a ‘right’ answer. Many instructors encouraged me to look further beyond the simple answer, use credible sources to support my answer, and apply what I had learned to my everyday life. These interactions seemed challenging at the time, but I find myself encouraging my own students to keep asking why and how — not just what.”

Keeping the focus on teaching students how to think is essential in the development of critical thinking. When academics are taught with a biblical worldview, students are encouraged to find the truth and evidence to back up their claims. Without these skills, students will be incapable of succeeding in a professional environment.

So, does higher education foster critical thinking and problem-solving? Yes. But only when students and professors work together to find the truth, based on facts, can critical thinking flourish.

Andreucci-Annunziata, P., Riedemann, A., Cortes, S., Mellado, A., Del Rio, M. T., & Vega-Munoz, A. (2023). Conceptualizations and instructional strategies on critical thinking in higher education: A systematic review of systematic reviews. Frontiers in Education, 8. https://doi.org/10.3389/feduc.2023.1141686

Flores, K. L., Matkin, G. S., Burbach, M. E., Quinn, C., & Harding, H. E. (2012). Deficient Critical Thinking Skills among College Graduates: Implications for leadership. Educational Philosophy and Theory, 44 (2), 212-230. https://doi.org/10.1111/j.1469-5812.2010.00672.x

Plummer, K. J., Kebritchi, M., Leary, H. M., & Halverson, D.M. (2022). Enhancing Critical Thinking Skills through Decision-Based Learning. Innovative Higher Education, 47 (4), 711-734. https://doi.org/101007/s10755-022-09595-9

Thinking and Analysis

Critical thinking skills.

Three students leaning over a sheet of butcher block paper, with markers in their hands

The essence of the independent mind lies not in what it thinks, but in how it thinks. —Christopher Hitchens, author and journalist

Learning Objectives

By the end of this section, you will be able to:

Define critical thinking
Describe the role that logic plays in critical thinking
Describe how critical thinking skills can be used to problem-solve
Describe how critical thinking skills can be used to evaluate information
Identify strategies for developing yourself as a critical thinker

Critical Thinking

Thinking comes naturally. You don’t have to make it happen—it just does. But you can make it happen in different ways. For example, you can think positively or negatively. You can think with “heart” and you can think with rational judgment. You can also think strategically and analytically, and mathematically and scientifically. These are a few of multiple ways in which the mind can process thought.

What are some forms of thinking you use? When do you use them, and why?

As a college student, you are tasked with engaging and expanding your thinking skills. One of the most important of these skills is critical thinking. Critical thinking is important because it relates to nearly all tasks, situations, topics, careers, environments, challenges, and opportunities. It’s a “domain-general” thinking skill—not a thinking skill that’s reserved for a one subject alone or restricted to a particular subject area.

Great leaders have highly attuned critical thinking skills, and you can, too. In fact, you probably have a lot of these skills already. Of all your thinking skills, critical thinking may have the greatest value.

What Is Critical Thinking?

Critical thinking is clear, reasonable, reflective thinking focused on deciding what to believe or do. It means asking probing questions like, “How do we know?” or “Is this true in every case or just in this instance?” It involves being skeptical and challenging assumptions, rather than simply memorizing facts or blindly accepting what you hear or read.

Imagine, for example, that you’re reading a history textbook. You wonder who wrote it and why, because you detect certain biases in the writing. You find that the author has a limited scope of research focused only on a particular group within a population. In this case, your critical thinking reveals that there are “other sides to the story.”

Who are critical thinkers, and what characteristics do they have in common? Critical thinkers are usually curious and reflective people. They like to explore and probe new areas and seek knowledge, clarification, and new solutions. They ask pertinent questions, evaluate statements and arguments, and they distinguish between facts and opinion. They are also willing to examine their own beliefs, possessing a manner of humility that allows them to admit lack of knowledge or understanding when needed. They are open to changing their mind. Perhaps most of all, they actively enjoy learning, and seeking new knowledge is a lifelong pursuit.

This may well be you!

No matter where you are on the road to being a critical thinker, you can always more fully develop and finely tune your skills. Doing so will help you develop more balanced arguments, express yourself clearly, read critically, and glean important information efficiently. Critical thinking skills will help you in any profession or any circumstance of life, from science to art to business to teaching. With critical thinking, you become a clearer thinker and problem solver.

Critical Thinking IS	Critical Thinking is NOT
Skepticism	Memorizing
Examining assumptions	Group thinking
Challenging reasoning	Blind acceptance of authority
Uncovering biases

The following video, from Lawrence Bland, presents the major concepts and benefits of critical thinking.

Activity: Self-Assess Your Critical Thinking Strategies

Assess your basic understanding of the skills involved in critical thinking.
Visit the Quia Critical Thinking Quiz page and click on Start Now (you don’t need to enter your name). Select the best answer for each question, and then click on Submit Answers. A score of 70 percent or better on this quiz is considering passing.
Based on the content of the questions, do you feel you use good critical thinking strategies in college? In what ways might you improve as a critical thinker?

Critical Thinking and Logic

Critical thinking is fundamentally a process of questioning information and data. You may question the information you read in a textbook, or you may question what a politician or a professor or a classmate says. You can also question a commonly-held belief or a new idea. With critical thinking, anything and everything is subject to question and examination for the purpose of logically constructing reasoned perspectives.

What Is Logic, and Why Is It Important in Critical Thinking?

The word logic comes from the Ancient Greek logike , referring to the science or art of reasoning. Using logic, a person evaluates arguments and reasoning and strives to distinguish between good and bad reasoning, or between truth and falsehood. Using logic, you can evaluate ideas or claims people make, make good decisions, and form sound beliefs about the world. [1]

Questions of Logic in Critical Thinking

Let’s use a simple example of applying logic to a critical-thinking situation. In this hypothetical scenario, a man has a PhD in political science, and he works as a professor at a local college. His wife works at the college, too. They have three young children in the local school system, and their family is well known in the community. The man is now running for political office. Are his credentials and experience sufficient for entering public office? Will he be effective in the political office? Some voters might believe that his personal life and current job, on the surface, suggest he will do well in the position, and they will vote for him. In truth, the characteristics described don’t guarantee that the man will do a good job. The information is somewhat irrelevant. What else might you want to know? How about whether the man had already held a political office and done a good job? In this case, we want to ask, How much information is adequate in order to make a decision based on logic instead of assumptions?

The following questions, presented in Figure 1, below, are ones you may apply to formulating a logical, reasoned perspective in the above scenario or any other situation:

What’s happening? Gather the basic information and begin to think of questions.
Why is it important? Ask yourself why it’s significant and whether or not you agree.
What don’t I see? Is there anything important missing?
How do I know? Ask yourself where the information came from and how it was constructed.
Who is saying it? What’s the position of the speaker and what is influencing them?
What else? What if? What other ideas exist and are there other possibilities?

Infographic titled "Questions a Critical Thinker Asks." From the top, text reads: What's Happening? Gather the basic information and begin to think of questions (image of two stick figures talking to each other). Why is it Important? Ask yourself why it's significant and whether or not you agree. (Image of bearded stick figure sitting on a rock.) What Don't I See? Is there anything important missing? (Image of stick figure wearing a blindfold, whistling, walking away from a sign labeled Answers.) How Do I Know? Ask yourself where the information came from and how it was constructed. (Image of stick figure in a lab coat, glasses, holding a beaker.) Who is Saying It? What's the position of the speaker and what is influencing them? (Image of stick figure reading a newspaper.) What Else? What If? What other ideas exist and are there other possibilities? (Stick figure version of Albert Einstein with a thought bubble saying "If only time were relative...".

Problem-Solving with Critical Thinking

For most people, a typical day is filled with critical thinking and problem-solving challenges. In fact, critical thinking and problem-solving go hand-in-hand. They both refer to using knowledge, facts, and data to solve problems effectively. But with problem-solving, you are specifically identifying, selecting, and defending your solution. Below are some examples of using critical thinking to problem-solve:

Your roommate was upset and said some unkind words to you, which put a crimp in the relationship. You try to see through the angry behaviors to determine how you might best support the roommate and help bring the relationship back to a comfortable spot.
Your campus club has been languishing on account of lack of participation and funds. The new club president, though, is a marketing major and has identified some strategies to interest students in joining and supporting the club. Implementation is forthcoming.
Your final art class project challenges you to conceptualize form in new ways. On the last day of class when students present their projects, you describe the techniques you used to fulfill the assignment. You explain why and how you selected that approach.
Your math teacher sees that the class is not quite grasping a concept. She uses clever questioning to dispel anxiety and guide you to new understanding of the concept.
You have a job interview for a position that you feel you are only partially qualified for, although you really want the job and you are excited about the prospects. You analyze how you will explain your skills and experiences in a way to show that you are a good match for the prospective employer.
You are doing well in college, and most of your college and living expenses are covered. But there are some gaps between what you want and what you feel you can afford. You analyze your income, savings, and budget to better calculate what you will need to stay in college and maintain your desired level of spending.

Problem-Solving Action Checklist

Problem-solving can be an efficient and rewarding process, especially if you are organized and mindful of critical steps and strategies. Remember, too, to assume the attributes of a good critical thinker. If you are curious, reflective, knowledge-seeking, open to change, probing, organized, and ethical, your challenge or problem will be less of a hurdle, and you’ll be in a good position to find intelligent solutions.

	STRATEGIES	ACTION CHECKLIST
1	Define the problem
2	Identify available solutions
3	Select your solution

Evaluating Information with Critical Thinking

Evaluating information can be one of the most complex tasks you will be faced with in college. But if you utilize the following four strategies, you will be well on your way to success:

Read for understanding by using text coding
Examine arguments
Clarify thinking
Cultivate “habits of mind”

Read for Understanding Using Text Coding

When you read and take notes, use the text coding strategy . Text coding is a way of tracking your thinking while reading. It entails marking the text and recording what you are thinking either in the margins or perhaps on Post-it notes. As you make connections and ask questions in response to what you read, you monitor your comprehension and enhance your long-term understanding of the material.

With text coding, mark important arguments and key facts. Indicate where you agree and disagree or have further questions. You don’t necessarily need to read every word, but make sure you understand the concepts or the intentions behind what is written. Feel free to develop your own shorthand style when reading or taking notes. The following are a few options to consider using while coding text.

Shorthand	Meaning
!	Important
L	Learned something new
!	Big idea surfaced
*	Interesting or important fact
?	Dig deeper
✓	Agree
≠	Disagree

See more text coding from PBWorks and Collaborative for Teaching and Learning .

Examine Arguments

When you examine arguments or claims that an author, speaker, or other source is making, your goal is to identify and examine the hard facts. You can use the spectrum of authority strategy for this purpose. The spectrum of authority strategy assists you in identifying the “hot” end of an argument—feelings, beliefs, cultural influences, and societal influences—and the “cold” end of an argument—scientific influences. The following video explains this strategy.

Clarify Thinking

When you use critical thinking to evaluate information, you need to clarify your thinking to yourself and likely to others. Doing this well is mainly a process of asking and answering probing questions, such as the logic questions discussed earlier. Design your questions to fit your needs, but be sure to cover adequate ground. What is the purpose? What question are we trying to answer? What point of view is being expressed? What assumptions are we or others making? What are the facts and data we know, and how do we know them? What are the concepts we’re working with? What are the conclusions, and do they make sense? What are the implications?

Cultivate “Habits of Mind”

“Habits of mind” are the personal commitments, values, and standards you have about the principle of good thinking. Consider your intellectual commitments, values, and standards. Do you approach problems with an open mind, a respect for truth, and an inquiring attitude? Some good habits to have when thinking critically are being receptive to having your opinions changed, having respect for others, being independent and not accepting something is true until you’ve had the time to examine the available evidence, being fair-minded, having respect for a reason, having an inquiring mind, not making assumptions, and always, especially, questioning your own conclusions—in other words, developing an intellectual work ethic. Try to work these qualities into your daily life.

Developing Yourself As a Critical Thinker

Photo of a group of students standing around a poster on the wall, where they're adding post-it notes with handwriting on them

Critical thinking is a desire to seek, patience to doubt, fondness to meditate, slowness to assert, readiness to consider, carefulness to dispose and set in order; and hatred for every kind of imposture. —Francis Bacon, philosopher

Critical thinking is a fundamental skill for college students, but it should also be a lifelong pursuit. Below are additional strategies to develop yourself as a critical thinker in college and in everyday life:

Reflect and practice : Always reflect on what you’ve learned. Is it true all the time? How did you arrive at your conclusions?
Use wasted time : It’s certainly important to make time for relaxing, but if you find you are indulging in too much of a good thing, think about using your time more constructively. Determine when you do your best thinking and try to learn something new during that part of the day.
Redefine the way you see things : It can be very uninteresting to always think the same way. Challenge yourself to see familiar things in new ways. Put yourself in someone else’s shoes and consider things from a different angle or perspective. If you’re trying to solve a problem, list all your concerns: what you need in order to solve it, who can help, what some possible barriers might be, etc. It’s often possible to reframe a problem as an opportunity. Try to find a solution where there seems to be none.
Analyze the influences on your thinking and in your life : Why do you think or feel the way you do? Analyze your influences. Think about who in your life influences you. Do you feel or react a certain way because of social convention, or because you believe it is what is expected of you? Try to break out of any molds that may be constricting you.
Express yourself : Critical thinking also involves being able to express yourself clearly. Most important in expressing yourself clearly is stating one point at a time. You might be inclined to argue every thought, but you might have greater impact if you focus just on your main arguments. This will help others to follow your thinking clearly. For more abstract ideas, assume that your audience may not understand. Provide examples, analogies, or metaphors where you can.
Enhance your wellness : It’s easier to think critically when you take care of your mental and physical health. Try taking 10-minute activity breaks to reach 30 to 60 minutes of physical activity each day . Try taking a break between classes and walk to the coffee shop that’s farthest away. Scheduling physical activity into your day can help lower stress and increase mental alertness. Also, do your most difficult work when you have the most energy . Think about the time of day you are most effective and have the most energy. Plan to do your most difficult work during these times. And be sure to reach out for help . If you feel you need assistance with your mental or physical health, talk to a counselor or visit a doctor.

Activity: Reflect on Critical Thinking

Apply critical thinking strategies to your life

Directions:

Think about someone you consider to be a critical thinker (friend, professor, historical figure, etc). What qualities does he/she have?
Review some of the critical thinking strategies discussed on this page. Pick one strategy that makes sense to you. How can you apply this critical thinking technique to your academic work?
Habits of mind are attitudes and beliefs that influence how you approach the world (i.e., inquiring attitude, open mind, respect for truth, etc). What is one habit of mind you would like to actively develop over the next year? How will you develop a daily practice to cultivate this habit?
Write your responses in journal form, and submit according to your instructor’s guidelines.

The following text is an excerpt from an essay by Dr. Andrew Robert Baker, “Thinking Critically and Creatively.” In these paragraphs, Dr. Baker underscores the importance of critical thinking—the imperative of critical thinking, really—to improving as students, teachers, and researchers. The follow-up portion of this essay appears in the Creative Thinking section of this course.

Thinking Critically and Creatively

Critical thinking skills are perhaps the most fundamental skills involved in making judgments and solving problems. You use them every day, and you can continue improving them.

The ability to think critically about a matter—to analyze a question, situation, or problem down to its most basic parts—is what helps us evaluate the accuracy and truthfulness of statements, claims, and information we read and hear. It is the sharp knife that, when honed, separates fact from fiction, honesty from lies, and the accurate from the misleading. We all use this skill to one degree or another almost every day. For example, we use critical thinking every day as we consider the latest consumer products and why one particular product is the best among its peers. Is it a quality product because a celebrity endorses it? Because a lot of other people may have used it? Because it is made by one company versus another? Or perhaps because it is made in one country or another? These are questions representative of critical thinking.

The academic setting demands more of us in terms of critical thinking than everyday life. It demands that we evaluate information and analyze myriad issues. It is the environment where our critical thinking skills can be the difference between success and failure. In this environment we must consider information in an analytical, critical manner. We must ask questions—What is the source of this information? Is this source an expert one and what makes it so? Are there multiple perspectives to consider on an issue? Do multiple sources agree or disagree on an issue? Does quality research substantiate information or opinion? Do I have any personal biases that may affect my consideration of this information?

It is only through purposeful, frequent, intentional questioning such as this that we can sharpen our critical thinking skills and improve as students, learners and researchers.

—Dr. Andrew Robert Baker, Foundations of Academic Success: Words of Wisdom

Resources for Critical Thinking

Glossary of Critical Thinking Terms
Critical Thinking Self-Assessment
Logical Fallacies Jeopardy Template
Fallacies Files—Home
Thinking Critically | Learning Commons
Foundation for Critical Thinking
To Analyze Thinking We Must Identify and Question Its Elemental Structures
Critical Thinking in Everyday Life
"logike." Wordnik. n.d. Web. 16 Feb 2016. ↵
"Student Success-Thinking Critically In Class and Online." Critical Thinking Gateway . St Petersburg College, n.d. Web. 16 Feb 2016. ↵
Critical Thinking Skills. Authored by : Linda Bruce. Provided by : Lumen Learning. License : CC BY: Attribution
Image of three students. Authored by : PopTech. Located at : https://flic.kr/p/8tXtQp . License : CC BY-SA: Attribution-ShareAlike
Critical Thinking. Provided by : Critical and Creative Thinking Program. Located at : http://cct.wikispaces.umb.edu/Critical+Thinking . License : CC BY: Attribution
Thinking Critically. Authored by : UBC Learning Commons. Provided by : The University of British Columbia, Vancouver Campus. Located at : http://www.oercommons.org/courses/learning-toolkit-critical-thinking/view . License : CC BY: Attribution
Critical Thinking 101: Spectrum of Authority. Authored by : UBC Leap. Located at : https://youtu.be/9G5xooMN2_c . License : CC BY: Attribution
Image of students putting post-its on wall. Authored by : Hector Alejandro. Located at : https://flic.kr/p/7b2Ax2 . License : CC BY: Attribution
Foundations of Academic Success. Authored by : Thomas C. Priester, editor. Provided by : Open SUNY Textbooks. Located at : http://textbooks.opensuny.org/foundations-of-academic-success/ . License : CC BY-NC-SA: Attribution-NonCommercial-ShareAlike
Critical Thinking.wmv. Authored by : Lawrence Bland. Located at : https://youtu.be/WiSklIGUblo . License : All Rights Reserved . License Terms : Standard YouTube License

7.5 Problem-Solving

Estimated completion time: 12 minutes.

Questions to Consider:

How can determining the best approach to solve a problem help you generate solutions?
Why do thinkers create multiple solutions to problems?

When we’re solving a problem, whether at work, school, or home, we are being asked to perform multiple, often complex, tasks. The most effective problem-solving approach includes some variation of the following steps:

Determine the issue(s)
Recognize other perspectives
Think of multiple possible results
Research and evaluate the possibilities
Select the best result(s)
Communicate your findings
Establish logical action items based on your analysis

Determining the best approach to any given problem and generating more than one possible solution to the problem constitutes the complicated process of problem-solving. People who are good at these skills are highly marketable because many jobs consist of a series of problems that need to be solved for production, services, goods, and sales to continue smoothly. Think about what happens when a worker at your favorite coffee shop slips on a wet spot behind the counter, dropping several drinks she just prepared. One problem is the employee may be hurt, in need of attention, and probably embarrassed; another problem is that several customers do not have the drinks they were waiting for; and another problem is that stopping production of drinks (to care for the hurt worker, to clean up her spilled drinks, to make new drinks) causes the line at the cash register to back up. A good manager has to juggle all of these elements to resolve the situation as quickly and efficiently as possible. That resolution and return to standard operations doesn’t happen without a great deal of thinking: prioritizing needs, shifting other workers off one station onto another temporarily, and dealing with all the people involved, from the injured worker to the impatient patrons.

Determining the Best Approach

Faced with a problem-solving opportunity, you must assess the skills you will need to create solutions. Problem-solving can involve many different types of thinking. You may have to call on your creative, analytical, or critical thinking skills—or more frequently, a combination of several different types of thinking—to solve a problem satisfactorily. When you approach a situation, how can you decide what is the best type of thinking to employ? Sometimes the answer is obvious; if you are working a scientific challenge, you likely will use analytical thinking; if you are a design student considering the atmosphere of a home, you may need to tap into creative thinking skills; and if you are an early childhood education major outlining the logistics involved in establishing a summer day camp for children, you may need a combination of critical, analytical, and creative thinking to solve this challenge.

What sort of thinking do you imagine initially helped in the following scenarios? How would the other types of thinking come into resolving these problems?

Analytical thinking
Creative thinking
Critical thinking

Write a one- to two-sentence rationale for why you chose the answers you did on the above survey.

Generating Multiple Solutions

Why do you think it is important to provide multiple solutions when you’re going through the steps to solve problems? Typically, you’ll end up only using one solution at a time, so why expend the extra energy to create alternatives? If you planned a wonderful trip to Europe and had all the sites you want to see planned out and reservations made, you would think that your problem-solving and organizational skills had quite a workout. But what if when you arrived, the country you’re visiting is enmeshed in a public transportation strike experts predict will last several weeks if not longer? A back-up plan would have helped you contemplate alternatives you could substitute for the original plans. You certainly cannot predict every possible contingency—sick children, weather delays, economic downfalls—but you can be prepared for unexpected issues to come up and adapt more easily if you plan for multiple solutions.

Write out at least two possible solutions to these dilemmas:

Your significant other wants a birthday present—you have no cash.
You have three exams scheduled on a day when you also need to work.
Your car needs new tires, an oil change, and gas—you have no cash. (Is there a trend here?)
You have to pass a running test for your physical education class, but you’re out of shape.

Providing more than one solution to a problem gives people options. You may not need several options, but having more than one solution will allow you to feel more in control and part of the problem-solving process.

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Classroom Q&A

With larry ferlazzo.

In this EdWeek blog, an experiment in knowledge-gathering, Ferlazzo will address readers’ questions on classroom management, ELL instruction, lesson planning, and other issues facing teachers. Send your questions to [email protected]. Read more from this blog.

Eight Instructional Strategies for Promoting Critical Thinking

(This is the first post in a three-part series.)

The new question-of-the-week is:

What is critical thinking and how can we integrate it into the classroom?

This three-part series will explore what critical thinking is, if it can be specifically taught and, if so, how can teachers do so in their classrooms.

Today’s guests are Dara Laws Savage, Patrick Brown, Meg Riordan, Ph.D., and Dr. PJ Caposey. Dara, Patrick, and Meg were also guests on my 10-minute BAM! Radio Show . You can also find a list of, and links to, previous shows here.

You might also be interested in The Best Resources On Teaching & Learning Critical Thinking In The Classroom .

Current Events

Dara Laws Savage is an English teacher at the Early College High School at Delaware State University, where she serves as a teacher and instructional coach and lead mentor. Dara has been teaching for 25 years (career preparation, English, photography, yearbook, newspaper, and graphic design) and has presented nationally on project-based learning and technology integration:

There is so much going on right now and there is an overload of information for us to process. Did you ever stop to think how our students are processing current events? They see news feeds, hear news reports, and scan photos and posts, but are they truly thinking about what they are hearing and seeing?

I tell my students that my job is not to give them answers but to teach them how to think about what they read and hear. So what is critical thinking and how can we integrate it into the classroom? There are just as many definitions of critical thinking as there are people trying to define it. However, the Critical Think Consortium focuses on the tools to create a thinking-based classroom rather than a definition: “Shape the climate to support thinking, create opportunities for thinking, build capacity to think, provide guidance to inform thinking.” Using these four criteria and pairing them with current events, teachers easily create learning spaces that thrive on thinking and keep students engaged.

One successful technique I use is the FIRE Write. Students are given a quote, a paragraph, an excerpt, or a photo from the headlines. Students are asked to F ocus and respond to the selection for three minutes. Next, students are asked to I dentify a phrase or section of the photo and write for two minutes. Third, students are asked to R eframe their response around a specific word, phrase, or section within their previous selection. Finally, students E xchange their thoughts with a classmate. Within the exchange, students also talk about how the selection connects to what we are covering in class.

There was a controversial Pepsi ad in 2017 involving Kylie Jenner and a protest with a police presence. The imagery in the photo was strikingly similar to a photo that went viral with a young lady standing opposite a police line. Using that image from a current event engaged my students and gave them the opportunity to critically think about events of the time.

Here are the two photos and a student response:

F - Focus on both photos and respond for three minutes

In the first picture, you see a strong and courageous black female, bravely standing in front of two officers in protest. She is risking her life to do so. Iesha Evans is simply proving to the world she does NOT mean less because she is black … and yet officers are there to stop her. She did not step down. In the picture below, you see Kendall Jenner handing a police officer a Pepsi. Maybe this wouldn’t be a big deal, except this was Pepsi’s weak, pathetic, and outrageous excuse of a commercial that belittles the whole movement of people fighting for their lives.

I - Identify a word or phrase, underline it, then write about it for two minutes

A white, privileged female in place of a fighting black woman was asking for trouble. A struggle we are continuously fighting every day, and they make a mockery of it. “I know what will work! Here Mr. Police Officer! Drink some Pepsi!” As if. Pepsi made a fool of themselves, and now their already dwindling fan base continues to ever shrink smaller.

R - Reframe your thoughts by choosing a different word, then write about that for one minute

You don’t know privilege until it’s gone. You don’t know privilege while it’s there—but you can and will be made accountable and aware. Don’t use it for evil. You are not stupid. Use it to do something. Kendall could’ve NOT done the commercial. Kendall could’ve released another commercial standing behind a black woman. Anything!

Exchange - Remember to discuss how this connects to our school song project and our previous discussions?

This connects two ways - 1) We want to convey a strong message. Be powerful. Show who we are. And Pepsi definitely tried. … Which leads to the second connection. 2) Not mess up and offend anyone, as had the one alma mater had been linked to black minstrels. We want to be amazing, but we have to be smart and careful and make sure we include everyone who goes to our school and everyone who may go to our school.

As a final step, students read and annotate the full article and compare it to their initial response.

Using current events and critical-thinking strategies like FIRE writing helps create a learning space where thinking is the goal rather than a score on a multiple-choice assessment. Critical-thinking skills can cross over to any of students’ other courses and into life outside the classroom. After all, we as teachers want to help the whole student be successful, and critical thinking is an important part of navigating life after they leave our classrooms.

‘Before-Explore-Explain’

Patrick Brown is the executive director of STEM and CTE for the Fort Zumwalt school district in Missouri and an experienced educator and author :

Planning for critical thinking focuses on teaching the most crucial science concepts, practices, and logical-thinking skills as well as the best use of instructional time. One way to ensure that lessons maintain a focus on critical thinking is to focus on the instructional sequence used to teach.

Explore-before-explain teaching is all about promoting critical thinking for learners to better prepare students for the reality of their world. What having an explore-before-explain mindset means is that in our planning, we prioritize giving students firsthand experiences with data, allow students to construct evidence-based claims that focus on conceptual understanding, and challenge students to discuss and think about the why behind phenomena.

Just think of the critical thinking that has to occur for students to construct a scientific claim. 1) They need the opportunity to collect data, analyze it, and determine how to make sense of what the data may mean. 2) With data in hand, students can begin thinking about the validity and reliability of their experience and information collected. 3) They can consider what differences, if any, they might have if they completed the investigation again. 4) They can scrutinize outlying data points for they may be an artifact of a true difference that merits further exploration of a misstep in the procedure, measuring device, or measurement. All of these intellectual activities help them form more robust understanding and are evidence of their critical thinking.

In explore-before-explain teaching, all of these hard critical-thinking tasks come before teacher explanations of content. Whether we use discovery experiences, problem-based learning, and or inquiry-based activities, strategies that are geared toward helping students construct understanding promote critical thinking because students learn content by doing the practices valued in the field to generate knowledge.

An Issue of Equity

Meg Riordan, Ph.D., is the chief learning officer at The Possible Project, an out-of-school program that collaborates with youth to build entrepreneurial skills and mindsets and provides pathways to careers and long-term economic prosperity. She has been in the field of education for over 25 years as a middle and high school teacher, school coach, college professor, regional director of N.Y.C. Outward Bound Schools, and director of external research with EL Education:

Although critical thinking often defies straightforward definition, most in the education field agree it consists of several components: reasoning, problem-solving, and decisionmaking, plus analysis and evaluation of information, such that multiple sides of an issue can be explored. It also includes dispositions and “the willingness to apply critical-thinking principles, rather than fall back on existing unexamined beliefs, or simply believe what you’re told by authority figures.”

Despite variation in definitions, critical thinking is nonetheless promoted as an essential outcome of students’ learning—we want to see students and adults demonstrate it across all fields, professions, and in their personal lives. Yet there is simultaneously a rationing of opportunities in schools for students of color, students from under-resourced communities, and other historically marginalized groups to deeply learn and practice critical thinking.

For example, many of our most underserved students often spend class time filling out worksheets, promoting high compliance but low engagement, inquiry, critical thinking, or creation of new ideas. At a time in our world when college and careers are critical for participation in society and the global, knowledge-based economy, far too many students struggle within classrooms and schools that reinforce low-expectations and inequity.

If educators aim to prepare all students for an ever-evolving marketplace and develop skills that will be valued no matter what tomorrow’s jobs are, then we must move critical thinking to the forefront of classroom experiences. And educators must design learning to cultivate it.

So, what does that really look like?

Unpack and define critical thinking

To understand critical thinking, educators need to first unpack and define its components. What exactly are we looking for when we speak about reasoning or exploring multiple perspectives on an issue? How does problem-solving show up in English, math, science, art, or other disciplines—and how is it assessed? At Two Rivers, an EL Education school, the faculty identified five constructs of critical thinking, defined each, and created rubrics to generate a shared picture of quality for teachers and students. The rubrics were then adapted across grade levels to indicate students’ learning progressions.

At Avenues World School, critical thinking is one of the Avenues World Elements and is an enduring outcome embedded in students’ early experiences through 12th grade. For instance, a kindergarten student may be expected to “identify cause and effect in familiar contexts,” while an 8th grader should demonstrate the ability to “seek out sufficient evidence before accepting a claim as true,” “identify bias in claims and evidence,” and “reconsider strongly held points of view in light of new evidence.”

When faculty and students embrace a common vision of what critical thinking looks and sounds like and how it is assessed, educators can then explicitly design learning experiences that call for students to employ critical-thinking skills. This kind of work must occur across all schools and programs, especially those serving large numbers of students of color. As Linda Darling-Hammond asserts , “Schools that serve large numbers of students of color are least likely to offer the kind of curriculum needed to ... help students attain the [critical-thinking] skills needed in a knowledge work economy. ”

So, what can it look like to create those kinds of learning experiences?

Designing experiences for critical thinking

After defining a shared understanding of “what” critical thinking is and “how” it shows up across multiple disciplines and grade levels, it is essential to create learning experiences that impel students to cultivate, practice, and apply these skills. There are several levers that offer pathways for teachers to promote critical thinking in lessons:

1.Choose Compelling Topics: Keep it relevant

A key Common Core State Standard asks for students to “write arguments to support claims in an analysis of substantive topics or texts using valid reasoning and relevant and sufficient evidence.” That might not sound exciting or culturally relevant. But a learning experience designed for a 12th grade humanities class engaged learners in a compelling topic— policing in America —to analyze and evaluate multiple texts (including primary sources) and share the reasoning for their perspectives through discussion and writing. Students grappled with ideas and their beliefs and employed deep critical-thinking skills to develop arguments for their claims. Embedding critical-thinking skills in curriculum that students care about and connect with can ignite powerful learning experiences.

2. Make Local Connections: Keep it real

At The Possible Project , an out-of-school-time program designed to promote entrepreneurial skills and mindsets, students in a recent summer online program (modified from in-person due to COVID-19) explored the impact of COVID-19 on their communities and local BIPOC-owned businesses. They learned interviewing skills through a partnership with Everyday Boston , conducted virtual interviews with entrepreneurs, evaluated information from their interviews and local data, and examined their previously held beliefs. They created blog posts and videos to reflect on their learning and consider how their mindsets had changed as a result of the experience. In this way, we can design powerful community-based learning and invite students into productive struggle with multiple perspectives.

3. Create Authentic Projects: Keep it rigorous

At Big Picture Learning schools, students engage in internship-based learning experiences as a central part of their schooling. Their school-based adviser and internship-based mentor support them in developing real-world projects that promote deeper learning and critical-thinking skills. Such authentic experiences teach “young people to be thinkers, to be curious, to get from curiosity to creation … and it helps students design a learning experience that answers their questions, [providing an] opportunity to communicate it to a larger audience—a major indicator of postsecondary success.” Even in a remote environment, we can design projects that ask more of students than rote memorization and that spark critical thinking.

Our call to action is this: As educators, we need to make opportunities for critical thinking available not only to the affluent or those fortunate enough to be placed in advanced courses. The tools are available, let’s use them. Let’s interrogate our current curriculum and design learning experiences that engage all students in real, relevant, and rigorous experiences that require critical thinking and prepare them for promising postsecondary pathways.

Critical Thinking & Student Engagement

Dr. PJ Caposey is an award-winning educator, keynote speaker, consultant, and author of seven books who currently serves as the superintendent of schools for the award-winning Meridian CUSD 223 in northwest Illinois. You can find PJ on most social-media platforms as MCUSDSupe:

When I start my keynote on student engagement, I invite two people up on stage and give them each five paper balls to shoot at a garbage can also conveniently placed on stage. Contestant One shoots their shot, and the audience gives approval. Four out of 5 is a heckuva score. Then just before Contestant Two shoots, I blindfold them and start moving the garbage can back and forth. I usually try to ensure that they can at least make one of their shots. Nobody is successful in this unfair environment.

I thank them and send them back to their seats and then explain that this little activity was akin to student engagement. While we all know we want student engagement, we are shooting at different targets. More importantly, for teachers, it is near impossible for them to hit a target that is moving and that they cannot see.

Within the world of education and particularly as educational leaders, we have failed to simplify what student engagement looks like, and it is impossible to define or articulate what student engagement looks like if we cannot clearly articulate what critical thinking is and looks like in a classroom. Because, simply, without critical thought, there is no engagement.

The good news here is that critical thought has been defined and placed into taxonomies for decades already. This is not something new and not something that needs to be redefined. I am a Bloom’s person, but there is nothing wrong with DOK or some of the other taxonomies, either. To be precise, I am a huge fan of Daggett’s Rigor and Relevance Framework. I have used that as a core element of my practice for years, and it has shaped who I am as an instructional leader.

So, in order to explain critical thought, a teacher or a leader must familiarize themselves with these tried and true taxonomies. Easy, right? Yes, sort of. The issue is not understanding what critical thought is; it is the ability to integrate it into the classrooms. In order to do so, there are a four key steps every educator must take.

Integrating critical thought/rigor into a lesson does not happen by chance, it happens by design. Planning for critical thought and engagement is much different from planning for a traditional lesson. In order to plan for kids to think critically, you have to provide a base of knowledge and excellent prompts to allow them to explore their own thinking in order to analyze, evaluate, or synthesize information.
SIDE NOTE – Bloom’s verbs are a great way to start when writing objectives, but true planning will take you deeper than this.

QUESTIONING

If the questions and prompts given in a classroom have correct answers or if the teacher ends up answering their own questions, the lesson will lack critical thought and rigor.
Script five questions forcing higher-order thought prior to every lesson. Experienced teachers may not feel they need this, but it helps to create an effective habit.
If lessons are rigorous and assessments are not, students will do well on their assessments, and that may not be an accurate representation of the knowledge and skills they have mastered. If lessons are easy and assessments are rigorous, the exact opposite will happen. When deciding to increase critical thought, it must happen in all three phases of the game: planning, instruction, and assessment.

TALK TIME / CONTROL

To increase rigor, the teacher must DO LESS. This feels counterintuitive but is accurate. Rigorous lessons involving tons of critical thought must allow for students to work on their own, collaborate with peers, and connect their ideas. This cannot happen in a silent room except for the teacher talking. In order to increase rigor, decrease talk time and become comfortable with less control. Asking questions and giving prompts that lead to no true correct answer also means less control. This is a tough ask for some teachers. Explained differently, if you assign one assignment and get 30 very similar products, you have most likely assigned a low-rigor recipe. If you assign one assignment and get multiple varied products, then the students have had a chance to think deeply, and you have successfully integrated critical thought into your classroom.

Thanks to Dara, Patrick, Meg, and PJ for their contributions!

Please feel free to leave a comment with your reactions to the topic or directly to anything that has been said in this post.

Consider contributing a question to be answered in a future post. You can send one to me at [email protected] . When you send it in, let me know if I can use your real name if it’s selected or if you’d prefer remaining anonymous and have a pseudonym in mind.

You can also contact me on Twitter at @Larryferlazzo .

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It’s Time to Get Serious About Teaching Critical Thinking

By Jonathan Haber

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For close to 50 years, educators and politicians from classrooms to the Oval Office have stressed the importance of graduating students who are skilled critical thinkers.

Content that once had to be drilled into students’ heads is now just a phone swipe away, but the ability to make sense of that information requires thinking critically about it. Similarly, our democracy is today imperiled not by lack of access to data and opinions about the most important issues of the day, but rather by our inability to sort the true from the fake (or hopelessly biased).

We have certainly made progress in critical-thinking education over the last five decades. Courses dedicated to the subject can be found in the catalogs of many colleges and universities, while the latest generation of K-12 academic standards emphasize not just content but also the skills necessary to think critically about content taught in English, math, science and social studies classes.

Despite this progress, 75 percent of employers claim the students they hire after 12, 16 or more years of formal education lack the ability to think critically and solve problems -- despite the fact that nearly all educators claim to prioritize helping students develop those very skills. Those statistics were included in Academically Adrift , the 2011 book by Richard Arum and Josipa Roksa, which caused a stir when the authors asserted that students made little to no progress in critical-thinking ability during their college years.

With perils mounting, many of them attributable to too little critical thinking about the subjects that matter most, we clearly must do more to ensure today’s students become tomorrow’s skilled thinkers. Fortunately, we are in a position to do so without having to overturn the current higher education system or break the bank.

What Do We Mean by ‘Critical Thinking’?

One barrier that has kept us from making more progress in critical-thinking education over the last several decades is the perception that we still do not understand the concept well enough to determine how teaching critical-thinking skills can be integrated into the curriculum.

That paralysis derives partly from debates within the critical-thinking community over how the term should be defined. But such debates, while thoughtful and constructive, should not obscure the fact that there is widespread consensus regarding what skills constitute critical thinking, as well as substantial research on how those skills can be taught successfully.

For example, critical thinking involves thinking in a structured way. The term commonly used to describe this form of productive, structured thinking is “logic,” but logic describes a number of systems for reasoning systematically.

Formal logic reduces words and ideas to symbols that can be manipulated, for instance, much like numbers and symbols used in mathematics. While formal logic is extraordinarily powerful (just ask any computer programmer), we can also systematize our reasoning using informal logic that allows us to consider the meaning of words rather than reducing them to symbols fit into a structure. There are also a number of graphical systems for mapping out logical relationships, some of them easy enough to be picked up by young learners, that can be applied to any content area.

Since most of the communication we need to think critically about involves everyday human language, rather than machine code, skilled critical thinkers must also be adept at translating spoken and written language into precise statements that can be built into a logical structure. This translation process is as much art as science, but with practice, students can perform this kind of translation on anything from historic or literary documents to scientific ideas and mathematical proofs.

When those translated precise statements are built into a logical structure, you have an argument -- the basic unit of reasoning. Arguments can be found in political speeches, editorials and advertisements, as well as in communication across STEM fields, and the rules for analyzing the quality of arguments have been in place for more than 2,000 years.

Structured arguments play a special role in highlighting the importance of reasons for belief (called a warrant in logical argumentation), which gives students the ability to understand why true premises can lead to a false conclusion -- rather than labor under the misconception that the world consists of facts that can be true or false, with everything else falling into the category of opinion (or worse, “just an opinion”).

Another myth that has slowed down integrating critical-thinking instruction more deeply into the curriculum is fear that teaching skills, including critical-thinking skills, must come at the expense of teaching academic content. Yet one cannot think critically about a subject one knows nothing about. Since background knowledge , including knowledge of content related to the academic disciplines, is a vital part of being a critical thinker, understanding content and thinking critically about it do not need to come into conflict.

While people continue to be debate the role of elements such as creativity in the critical-thinking process, there is a general consensus, going back to the earliest definitions of the term, that the concept includes three interconnecting elements: knowledge (for example, knowledge of one or more logical systems), skills (such as skills in applying that logical system to construct and analyze arguments) and dispositions (such as the willingness to apply critical-thinking principles, rather than fall back on existing unexamined beliefs, or simply believe what you’re told by authority figures).

Teaching Students to Think Critically

Just as enough consensus exists about what critical thinking is, so too we have adequate agreement regarding how critical thinking is best taught. Research shows that elements of critical thinking need to be taught explicitly , rather than assumed to come along for the ride when thoughtful teachers run through complex material with students. As mentioned previously, nearly all college professors prioritize developing their students’ critical-thinking abilities, but to move from aspiration to progress, they must marry this priority to practices that make critical-thinking instruction explicit within a discipline.

For example, mathematics is a subject where students are continually introduced to examples of deductive reasoning in the form of mathematical proofs. Yet how many math professors use this opportunity to explicitly introduce students to principles of deductive reasoning, or contrast deductive with inductive logic (the primary mode of reasoning used in science)? Similarly, activities involving informational reading and argumentative writing provide ideal opportunities to introduce students in college writing classes to logical arguments in which evidence (in the form of premises of an argument) leads to a conclusion and how those arguments can be tested for validity, soundness, strength and weakness.

As it turns out, the number of critical-thinking topics professors and students need to understand is relatively small, certainly compared to the much larger body of content that students need to master in an English, math, science or history course. For students to develop as critical thinkers, however, they must put that knowledge to work through deliberate practice that specifically focuses on development of critical-thinking skills. That can be accomplished through carefully designed activities and assignments that provide students opportunities to practice applying critical-thinking principles to answer questions and solve problems specific to academic content areas.

The previous example of a math professor contrasting deductive and inductive reasoning and explaining what each form of reasoning brings to different disciplines demonstrates the potential for critical-thinking skills to transfer between academic domains. Since critical thinking is universally applicable, faculty members can also use examples and deliberate practice exercises to show students how they can apply critical-thinking techniques to issues outside class, such as how to systematically make decisions regarding college or work or how to avoid manipulation by politicians and advertisers.

One critical-thinking researcher has proposed that becoming a skilled critical thinker requires the same amount of practice required to become a highly skilled athlete or musician: approximately 10,000 hours. If this suggestion is even partially correct, it points out a problem, since no single class, or even years of education, can provide this amount of dedicated practice time.

That is why professors must not just teach students critical-thinking skills and give them opportunities to put them to use, but they must also inspire them to continue practicing those skills on their own across academic subjects and in all areas of life. Given that thinking is something we do every waking hour and does not require practice fields, instruments or special equipment, inspired students can apply the critical-thinking skills they learn in class to improve their grades and make better decisions in life, reinforcing their value and creating a virtuous cycle of continuous use.

High-Leverage Critical Thinking Teaching Practices

The techniques I’ve described above -- explicit instruction on critical-thinking principles and techniques, deliberate practice opportunities that put those techniques to work, encouraging transfer between domains, and inspiring students to practice thinking critically on their own -- all represent high-leverage critical-thinking practices applicable to any domain. Such practices can be applied to focused content areas, highlighting the fact that integrating critical-thinking practices into the curriculum does not need to crowd out other activities college instructors have used for years.

Concrete methods for improving student critical-thinking ability can help colleges and universities, including liberal arts schools struggling in an era emphasizing STEM and career-oriented majors like business, define their mission as the place where the most vital 21st-century skills are explicitly taught, practiced and mastered. One major where a new emphasis on practical critical-thinking skills development can have a double impact is education, where students enrolled in undergraduate and graduate teacher-preparation programs can be taught using high-leverage critical-thinking practices they can then bring into the classroom as they enter jobs in K-12 schools.

Changing colleges to embrace both methods and a culture of critical thinking does not require overhauling education, eliminating courses or even asking professors to sacrifice approaches they have developed and used successfully. It simply involves adding new tools to their arsenal that allow them to accomplish what they already wholeheartedly support: helping students develop the skills needed to think critically about the world.

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1.2: Problem Solving with Critical Thinking

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Problems (Barriers) of Critical Thinking and Problem-Solving with Critical Thinking

Critical thinking and problem-solving are essential skills that are closely intertwined. While critical thinking involves analyzing and evaluating information, problem-solving specifically focuses on identifying, selecting, and defending solutions to issues. However, there are challenges and problems associated with critical thinking that can impact our ability to solve problems effectively. We will go over this in more detail in the next section, but it will be helpful to have an overview while looking at problem solving with critical thinking.

" Barrier " by Hans-Jörg Aleff is licensed under CC BY-NC-SA 2.0 .

Problems (Barriers) of Critical Thinking

Cognitive biases are systematic errors in thinking that affect our decisions and judgments. Common biases include confirmation bias (favoring information that confirms our preconceptions), anchoring bias (relying too heavily on the first piece of information encountered), and availability heuristic (overestimating the importance of information that is readily available).
These biases can lead to flawed reasoning and poor decision-making, hindering our ability to think critically and solve problems effectively.
Emotions can significantly impact our thinking processes. When we are stressed, anxious, or angry, our ability to think clearly and critically is compromised.
Emotional responses can cloud our judgment, leading us to make decisions based on feelings rather than rational analysis.
Incomplete or inaccurate information can impede critical thinking. Without access to all relevant data, it is challenging to evaluate a situation accurately and make informed decisions.
Ensuring the credibility and reliability of sources is crucial for effective critical thinking.
Overconfidence in our knowledge and abilities can lead to complacency and a failure to critically evaluate information.
It can prevent us from seeking additional perspectives or questioning our assumptions, resulting in suboptimal problem-solving outcomes.

Problem-Solving with Critical Thinking

Critical thinking plays a vital role in problem-solving by enabling us to approach issues systematically and thoughtfully. Here are some examples of how critical thinking can be applied to problem-solving:

When a roommate says unkind words, critical thinking helps us look beyond the immediate anger and consider the underlying causes. By analyzing the situation, we can identify ways to support our roommate and restore the relationship.
A campus club suffering from low participation can benefit from critical thinking by identifying effective marketing strategies. A marketing major president might analyze past events, member feedback, and promotional techniques to devise a plan to revitalize the club.
In an art class, a final project may challenge students to think creatively and critically about form. By experimenting with different techniques and reflecting on their effectiveness, students can articulate their process and justify their artistic choices.
A math teacher who notices students struggling with a concept can use critical thinking to develop questions that guide students toward understanding. This method reduces anxiety and fosters a deeper comprehension of the material.
When preparing for a job interview, critical thinking allows us to analyze our skills and experiences to present ourselves as the best candidate. We can anticipate questions, reflect on our strengths, and develop convincing arguments for why we are suitable for the position.
Managing college and living expenses requires critical thinking to analyze income, savings, and budgets. By evaluating financial data, we can identify gaps and create a plan to ensure we can afford our education and lifestyle.

Problem-Solving Action Checklist

To efficiently and effectively solve problems, it is essential to be organized and mindful of critical steps and strategies. Here is a problem-solving action checklist that incorporates critical thinking principles:

Clearly identify the issue and its scope.
Gather relevant information and understand the context.
Brainstorm a range of potential solutions.
Consider different perspectives and alternatives.
Assess the feasibility and potential impact of each solution.
Use logical reasoning to weigh the pros and cons.
Select the most effective and practical solution based on the evaluation.
Ensure the decision aligns with ethical standards and values.
Develop a plan of action to put the solution into practice.
Allocate resources and set a timeline for implementation.
Monitor the outcomes of the solution.
Reflect on the process and identify lessons learned for future problem-solving.

By assuming the attributes of a critical thinker—curiosity, reflection, knowledge-seeking, openness to change, probing, organization, and ethics—you can effectively tackle challenges and devise intelligent solutions. Critical thinking and problem-solving, when combined, create a powerful toolset for navigating the complexities of everyday life and achieving success.

Examples of the above theory in real world situations:

Example \(\pageindex{1}\), example of critical thinking challenges for students in central valley, ca, cognitive biases.

Example 1: Imagine you are working on a group project about water conservation practices in rural Central Valley. You believe that traditional irrigation methods are the best because that’s what your family has always used. This is confirmation bias. You seek out information that supports traditional methods and ignore newer, potentially more efficient techniques like drip irrigation. Additionally, you may rely heavily on the first article you read about traditional methods (anchoring bias), or overestimate the importance of a recent drought news story without considering long-term data (availability heuristic). These biases can lead to flawed conclusions and hinder the adoption of better practices.

Example 2: Imagine you are working on a group project about urban water conservation practices in Fresno. You believe that traditional lawn watering schedules are the best because that’s what your neighborhood has always used. This is confirmation bias. You seek out information that supports traditional schedules and ignore newer, potentially more efficient techniques like xeriscaping or smart irrigation systems. Additionally, you may rely heavily on the first article you read about traditional methods (anchoring bias) or overestimate the importance of a recent heatwave news story without considering long-term climate data (availability heuristic). These biases can lead to flawed conclusions and hinder the adoption of better practices.

Emotional Influences

Example 1: You are a student advocating for better working conditions for undocumented immigrant workers in the agricultural sector. During a class debate, you become very passionate and emotional because this issue affects many people you know personally. Your emotions could cloud your judgment, leading you to dismiss valid points from the opposing side without rational consideration. This emotional influence can prevent you from engaging in a balanced and critical analysis of the situation.

Example 2: You are a student advocating for better housing conditions for low-income families in Fresno. During a class debate, you become very passionate and emotional because this issue affects many people you know personally. Your emotions could cloud your judgment, leading you to dismiss valid points from the opposing side without rational consideration. This emotional influence can prevent you from engaging in a balanced and critical analysis of the situation.

Lack of Information

Example 1: You are assigned to write a research paper on the economic impacts of crop rotation in Central Valley agriculture. If you rely solely on a few articles from non-credible sources and do not access comprehensive agricultural studies, your paper may lack depth and accuracy. Without complete and accurate information, it is challenging to evaluate the benefits and drawbacks of crop rotation, potentially leading to misguided conclusions and recommendations.

Example 2: You are assigned to write a research paper on the economic impacts of gentrification in Fresno. If you rely solely on a few articles from non-credible sources and do not access comprehensive urban development studies, your paper may lack depth and accuracy. Without complete and accurate information, it is challenging to evaluate the benefits and drawbacks of gentrification, potentially leading to misguided conclusions and recommendations.

Overconfidence

Example 1: You have grown up working on your family’s farm and believe you know everything there is to know about agriculture in the Central Valley. When tasked with creating a business plan for sustainable farming, you might overlook innovative practices and new research. Your overconfidence could prevent you from seeking input from experts or considering alternative methods, resulting in a plan that is less effective and sustainable than it could be.

Example 2: You have grown up in Fresno and believe you know everything there is to know about the city’s urban development. When tasked with creating a business plan for sustainable city planning, you might overlook innovative practices and new research. Your overconfidence could prevent you from seeking input from experts or considering alternative methods, resulting in a plan that is less effective and sustainable than it could be.

Understanding and addressing these problems of critical thinking is crucial for students, especially those growing up in the agricultural context of rural Central Valley, CA. By recognizing cognitive biases, managing emotional influences, seeking complete information, and maintaining a humble attitude towards their knowledge and abilities, students can enhance their critical thinking skills and make better-informed decisions in both their academic and personal lives.

Example: Problem Solving with Critical Thinking \(\PageIndex{1}\)

Problem-solving with critical thinking for community college students.

Interpersonal Conflicts

Example 1: When you have a disagreement with a classmate over a group project, critical thinking helps you move past the initial frustration. By analyzing the situation, you can identify the root cause of the disagreement, consider each person’s perspective, and work towards a compromise that benefits the entire group. This approach helps maintain a positive working relationship and ensures the project progresses smoothly.

Example 2: When you have a disagreement with a classmate over a group project in your sociology class at Fresno City College, critical thinking helps you move past the initial frustration. By analyzing the situation, you can identify the root cause of the disagreement, consider each person’s perspective, and work towards a compromise that benefits the entire group. This approach helps maintain a positive working relationship and ensures the project progresses smoothly.

Organizational Challenges

Example 1: As a member of the student government, you notice declining attendance at campus events. By applying critical thinking, you can evaluate past event attendance, gather student feedback, and analyze promotional strategies. This thorough analysis enables you to develop targeted marketing campaigns and event ideas that better engage the student body, leading to increased participation and a more vibrant campus community.

Example 2: As a member of the student government at Los Angeles City College, you notice declining attendance at campus events. By applying critical thinking, you can evaluate past event attendance, gather student feedback, and analyze promotional strategies. This thorough analysis enables you to develop targeted marketing campaigns and event ideas that better engage the student body, leading to increased participation and a more vibrant campus community.

Academic Projects

Example 1: In a sociology class, you are assigned a research project on social issues affecting rural communities. Critical thinking allows you to evaluate various sources of information, identify key themes, and synthesize data to draw meaningful conclusions. By critically assessing the reliability of your sources and the relevance of your findings, you can create a well-supported and insightful research paper.

Example 2: In a sociology class at San Francisco City College, you are assigned a research project on social issues affecting urban communities. Critical thinking allows you to evaluate various sources of information, identify key themes, and synthesize data to draw meaningful conclusions. By critically assessing the reliability of your sources and the relevance of your findings, you can create a well-supported and insightful research paper.

Teaching and Learning

Example 1: As a peer tutor in a biology class, you notice some students are struggling with the concept of cellular respiration. Using critical thinking, you can devise a series of guiding questions and hands-on activities that help students break down the process into manageable parts. This method encourages active learning and helps students build a deeper understanding of the material.

Example 2: As a peer tutor in a biology class at Fresno City College, you notice some students are struggling with the concept of cellular respiration. Using critical thinking, you can devise a series of guiding questions and hands-on activities that help students break down the process into manageable parts. This method encourages active learning and helps students build a deeper understanding of the material.

Job Interviews

Example 1: When preparing for a job interview for a part-time position at a local business, critical thinking helps you reflect on your previous work experiences and skills. By anticipating potential interview questions, you can formulate thoughtful responses that highlight your strengths and demonstrate how you can contribute to the company. This preparation increases your confidence and effectiveness in presenting yourself as the ideal candidate.

Example 2: When preparing for a job interview for a part-time position at a local business in Los Angeles, critical thinking helps you reflect on your previous work experiences and skills. By anticipating potential interview questions, you can formulate thoughtful responses that highlight your strengths and demonstrate how you can contribute to the company. This preparation increases your confidence and effectiveness in presenting yourself as the ideal candidate.

Financial Planning

Example 1: Balancing tuition, textbooks, and living expenses can be challenging. Critical thinking enables you to create a detailed budget that accounts for all sources of income and expenses. By analyzing your spending habits and identifying areas where you can cut costs or increase savings, you can develop a financial plan that ensures you can afford your education and maintain your lifestyle.

Example 2: Balancing tuition, textbooks, and living expenses in San Francisco can be challenging. Critical thinking enables you to create a detailed budget that accounts for all sources of income and expenses. By analyzing your spending habits and identifying areas where you can cut costs or increase savings, you can develop a financial plan that ensures you can afford your education and maintain your lifestyle.

By applying critical thinking to problem-solving in various aspects of life, community college students can navigate challenges more effectively and make informed decisions. Whether dealing with interpersonal conflicts, organizational issues, academic projects, teaching and learning, job interviews, or financial planning, critical thinking provides a structured approach to achieving successful outcomes.

end of section go to next section to continue chapter

Attributions

The content above was assisted by ChatGPT in outlining and organizing information. The final material was curated, edited, authored, and arranged through human creativity, originality, and subject expertise of the Coalinga College English Department and the Coalinga College Library Learning Resource Center and is therefore under the CC BY NC SA license when applicable. To see resources on AI and copyright please see the United States Copyright Office 2023 Statement and the following case study on using AI assistance but curating and creating with human originality and creativity.

Images without specific attribution were generated with the assistance of ChatGPT 2024 and are not subject to any copyright restrictions, in accordance with the United States Copyright Office 2023 Statement .

The above section was remixed from the following Open Educational Resources: Introductory Composition, Basic Reading and Writing by Lumen, Module 1: Success Skills, Section 1.3 Critical Thinking by Lumen Learning , under CC BY NC SA .

1.2: Week 2 - Creative and Critical Thinking is shared under a CC BY license and was authored, remixed, and/or curated by Andrew Gurevich ( MHCC Library Press )
1.3: Critical thinking is shared under a CC BY-NC-SA license and was authored, remixed, and/or curated by Melissa Ashman ( KPUOpen ) .
1.3: Glance at Critical Response- Rhetoric and Critical Thinking is shared under a CC BY 4.0 license and was authored, remixed, and/or curated by OpenStax via source content that was edited to the style and standards of the LibreTexts platform; a detailed edit history is available upon request.
2.4: The Art of Rhetoric is shared under a CC BY-SA license and was authored, remixed, and/or curated by Athena Kashyap & Erika Dyquisto ( ASCCC Open Educational Resources Initiative ) .

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Strategies to Increase Critical Thinking Skills in students

Teach Better Team October 2, 2019 Blog , Engage Better , Lesson Plan Better , Personalize Student Learning Better

In This Post:

The importance of helping students increase critical thinking skills.
Ways to promote the essential skills needed to analyze and evaluate.
Strategies to incorporate critical thinking into your instruction.

We ask our teachers to be “future-ready” or say that we are teaching “for jobs that don’t exist yet.” These are powerful statements. At the same time, they give teachers the impression that we have to drastically change what we are doing .

So how do we plan education for an unknown job market or unknown needs?

My answer: We can’t predict the jobs, but whatever they are, students will need to think critically to do them. So, our job is to teach our students HOW to think, not WHAT to think.

Helping Students Become Critical Thinkers

My answer is rooted in the call to empower our students to be critical thinkers. I believe that to be critical thinkers, educators need to provide students with the strategies they need. And we need to ask more than just surface-level questions.

Questions to students must motivate them to dig up background knowledge. They should inspire them to make connections to real-world scenarios. These make the learning more memorable and meaningful.

Critical thinking is a general term. I believe this term means that students effectively identify, analyze, and evaluate content or skills. In this process, they (the students) will discover and present convincing reasons in support of their answers or thinking.

You can look up critical thinking and get many definitions like this one from Wikipedia: “ Critical thinking consists of a mental process of analyzing or evaluating information, particularly statements or propositions that people have offered as true. ”

Essential Skills for Critical Thinking

In my current role as director of curriculum and instruction, I work to promote the use of 21st-century tools and, more importantly, thinking skills. Some essential skills that are the basis for critical thinking are:

Communication and Information skills
Thinking and Problem-Solving skills
Interpersonal and Self- Directional skills
Collaboration skills

These four bullets are skills students are going to need in any field and in all levels of education. Hence my answer to the question. We need to teach our students to think critically and for themselves.

One of the goals of education is to prepare students to learn through discovery . Providing opportunities to practice being critical thinkers will assist students in analyzing others’ thinking and examining the logic of others.

Understanding others is an essential skill in collaboration and in everyday life. Critical thinking will allow students to do more than just memorize knowledge.

Ask Questions

So how do we do this? One recommendation is for educators to work in-depth questioning strategies into a lesson launch.

Ask thoughtful questions to allow for answers with sound reasoning. Then, word conversations and communication to shape students’ thinking. Quick answers often result in very few words and no eye contact, which are skills we don’t want to promote.

When you are asking students questions and they provide a solution, try some of these to promote further thinking:

Could you elaborate further on that point?
Will you express that point in another way?
Can you give me an illustration?
Would you give me an example?
Will you you provide more details?
Could you be more specific?
Do we need to consider another point of view?
Is there another way to look at this question?

Utilizing critical thinking skills could be seen as a change in the paradigm of teaching and learning. Engagement in education will enhance the collaboration among teachers and students. It will also provide a way for students to succeed even if the school system had to start over.

[scroll down to keep reading]

Promoting critical thinking into all aspects of instruction.

Engagement, application, and collaboration are skills that withstand the test of time. I also promote the integration of critical thinking into every aspect of instruction.

In my experience, I’ve found a few ways to make this happen.

Begin lessons/units with a probing question: It shouldn’t be a question you can answer with a ‘yes’ or a ‘no.’ These questions should inspire discovery learning and problem-solving.

Encourage Creativity: I have seen teachers prepare projects before they give it to their students many times. For example, designing snowmen or other “creative” projects. By doing the design work or by cutting all the circles out beforehand, it removes creativity options.

It may help the classroom run more smoothly if every child’s material is already cut out, but then every student’s project looks the same. Students don’t have to think on their own or problem solve.

Not having everything “glue ready” in advance is a good thing. Instead, give students all the supplies needed to create a snowman, and let them do it on their own.

Giving independence will allow students to become critical thinkers because they will have to create their own product with the supplies you give them. This might be an elementary example, but it’s one we can relate to any grade level or project.

Try not to jump to help too fast – let the students work through a productive struggle .

Build in opportunities for students to find connections in learning. Encouraging students to make connections to a real-life situation and identify patterns is a great way to practice their critical thinking skills. The use of real-world scenarios will increase rigor, relevance, and critical thinking.

A few other techniques to encourage critical thinking are:

Use analogies
Promote interaction among students
Ask open-ended questions
Allow reflection time
Use real-life problems
Allow for thinking practice

Critical thinking prepares students to think for themselves for the rest of their lives. I also believe critical thinkers are less likely to go along with the crowd because they think for themselves.

About Matthew X. Joseph, Ed.D.

Dr. Matthew X. Joseph has been a school and district leader in many capacities in public education over his 25 years in the field. Experiences such as the Director of Digital Learning and Innovation in Milford Public Schools (MA), elementary school principal in Natick, MA and Attleboro, MA, classroom teacher, and district professional development specialist have provided Matt incredible insights on how to best support teaching and learning. This experience has led to nationally publishing articles and opportunities to speak at multiple state and national events. He is the author of Power of Us: Creating Collaborative Schools and co-author of Modern Mentoring , Reimagining Teacher Mentorship (Due out, fall 2019). His master’s degree is in special education and his Ed.D. in Educational Leadership from Boston College.

Visit Matthew’s Blog

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Critical Thinking

Decision-making and Problem-solving

Appreciate the complexities involved in decision-making & problem solving.

Develop evidence to support views

Analyze situations carefully

Discuss subjects in an organized way

Predict the consequences of actions

Weigh alternatives

Generate and organize ideas

Form and apply concepts

Design systematic plans of action

A 5-Step Problem-Solving Strategy

Specify the problem – a first step to solving a problem is to identify it as specifically as possible. It involves evaluating the present state and determining how it differs from the goal state.

Analyze the problem – analyzing the problem involves learning as much as you can about it. It may be necessary to look beyond the obvious, surface situation, to stretch your imagination and reach for more creative options.

seek other perspectives

be flexible in your analysis

consider various strands of impact

brainstorm about all possibilities and implications

research problems for which you lack complete information. Get help.

Formulate possible solutions – identify a wide range of possible solutions.

try to think of all possible solutions

be creative

consider similar problems and how you have solved them

Evaluate possible solutions – weigh the advantages and disadvantages of each solution. Think through each solution and consider how, when, and where you could accomplish each. Consider both immediate and long-term results. Mapping your solutions can be helpful at this stage.

Choose a solution – consider 3 factors:

compatibility with your priorities

amount of risk

practicality

Keys to Problem Solving

Think aloud – problem solving is a cognitive, mental process. Thinking aloud or talking yourself through the steps of problem solving is useful. Hearing yourself think can facilitate the process.

Allow time for ideas to "gel" or consolidate. If time permits, give yourself time for solutions to develop. Distance from a problem can allow you to clear your mind and get a new perspective.

Talk about the problem – describing the problem to someone else and talking about it can often make a problem become more clear and defined so that a new solution will surface.

Decision Making Strategies

Decision making is a process of identifying and evaluating choices. We make numerous decisions every day and our decisions may range from routine, every-day types of decisions to those decisions which will have far reaching impacts. The types of decisions we make are routine, impulsive, and reasoned. Deciding what to eat for breakfast is a routine decision; deciding to do or buy something at the last minute is considered an impulsive decision; and choosing your college major is, hopefully, a reasoned decision. College coursework often requires you to make the latter, or reasoned decisions.

Decision making has much in common with problem solving. In problem solving you identify and evaluate solution paths; in decision making you make a similar discovery and evaluation of alternatives. The crux of decision making, then, is the careful identification and evaluation of alternatives. As you weigh alternatives, use the following suggestions:

Consider the outcome each is likely to produce, in both the short term and the long term.

Compare alternatives based on how easily you can accomplish each.

Evaluate possible negative side effects each may produce.

Consider the risk involved in each.

Be creative, original; don't eliminate alternatives because you have not heard or used them before.

An important part of decision making is to predict both short-term and long-term outcomes for each alternative. You may find that while an alternative seems most desirable at the present, it may pose problems or complications over a longer time period.

Uses of Critical Thinking
Critically Evaluating the Logic and Validity of Information
Recognizing Propaganda Techniques and Errors of Faulty Logic
Developing the Ability to Analyze Historical and Contemporary Information
Recognize and Value Various Viewpoints
Appreciating the Complexities Involved in Decision-Making and Problem-Solving
Being a Responsible Critical Thinker & Collaborating with Others
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Why Is Critical Thinking Important and How to Improve It

Updated: July 8, 2024

Published: April 2, 2020

Why-Is-Critical-Thinking-Important-a-Survival-Guide

Why is critical thinking important? The decisions that you make affect your quality of life. And if you want to ensure that you live your best, most successful and happy life, you’re going to want to make conscious choices. That can be done with a simple thing known as critical thinking. Here’s how to improve your critical thinking skills and make decisions that you won’t regret.

What Is Critical Thinking?

Critical thinking is the process of analyzing facts to form a judgment. Essentially, it involves thinking about thinking. Historically, it dates back to the teachings of Socrates , as documented by Plato.

Today, it is seen as a complex concept understood best by philosophers and psychologists. Modern definitions include “reasonable, reflective thinking focused on deciding what to believe or do” and “deciding what’s true and what you should do.”

The Importance Of Critical Thinking

Why is critical thinking important? Good question! Here are a few undeniable reasons why it’s crucial to have these skills.

1. Critical Thinking Is Universal

Critical thinking is a domain-general thinking skill. What does this mean? It means that no matter what path or profession you pursue, these skills will always be relevant and will always be beneficial to your success. They are not specific to any field.

2. Crucial For The Economy

Our future depends on technology, information, and innovation. Critical thinking is needed for our fast-growing economies, to solve problems as quickly and as effectively as possible.

3. Improves Language & Presentation Skills

In order to best express ourselves, we need to know how to think clearly and systematically — meaning practice critical thinking! Critical thinking also means knowing how to break down texts, and in turn, improve our ability to comprehend.

4. Promotes Creativity

By practicing critical thinking, we are allowing ourselves not only to solve problems but also to come up with new and creative ideas to do so. Critical thinking allows us to analyze these ideas and adjust them accordingly.

5. Important For Self-Reflection

Without critical thinking, how can we really live a meaningful life? We need this skill to self-reflect and justify our ways of life and opinions. Critical thinking provides us with the tools to evaluate ourselves in the way that we need to.

Photo by Marcelo Chagas from Pexels

6. the basis of science & democracy.

In order to have a democracy and to prove scientific facts, we need critical thinking in the world. Theories must be backed up with knowledge. In order for a society to effectively function, its citizens need to establish opinions about what’s right and wrong (by using critical thinking!).

Benefits Of Critical Thinking

We know that critical thinking is good for society as a whole, but what are some benefits of critical thinking on an individual level? Why is critical thinking important for us?

1. Key For Career Success

Critical thinking is crucial for many career paths. Not just for scientists, but lawyers , doctors, reporters, engineers , accountants, and analysts (among many others) all have to use critical thinking in their positions. In fact, according to the World Economic Forum, critical thinking is one of the most desirable skills to have in the workforce, as it helps analyze information, think outside the box, solve problems with innovative solutions, and plan systematically.

2. Better Decision Making

There’s no doubt about it — critical thinkers make the best choices. Critical thinking helps us deal with everyday problems as they come our way, and very often this thought process is even done subconsciously. It helps us think independently and trust our gut feeling.

3. Can Make You Happier!

While this often goes unnoticed, being in touch with yourself and having a deep understanding of why you think the way you think can really make you happier. Critical thinking can help you better understand yourself, and in turn, help you avoid any kind of negative or limiting beliefs, and focus more on your strengths. Being able to share your thoughts can increase your quality of life.

4. Form Well-Informed Opinions

There is no shortage of information coming at us from all angles. And that’s exactly why we need to use our critical thinking skills and decide for ourselves what to believe. Critical thinking allows us to ensure that our opinions are based on the facts, and help us sort through all that extra noise.

5. Better Citizens

One of the most inspiring critical thinking quotes is by former US president Thomas Jefferson: “An educated citizenry is a vital requisite for our survival as a free people.” What Jefferson is stressing to us here is that critical thinkers make better citizens, as they are able to see the entire picture without getting sucked into biases and propaganda.

6. Improves Relationships

While you may be convinced that being a critical thinker is bound to cause you problems in relationships, this really couldn’t be less true! Being a critical thinker can allow you to better understand the perspective of others, and can help you become more open-minded towards different views.

7. Promotes Curiosity

Critical thinkers are constantly curious about all kinds of things in life, and tend to have a wide range of interests. Critical thinking means constantly asking questions and wanting to know more, about why, what, who, where, when, and everything else that can help them make sense of a situation or concept, never taking anything at face value.

8. Allows For Creativity

Critical thinkers are also highly creative thinkers, and see themselves as limitless when it comes to possibilities. They are constantly looking to take things further, which is crucial in the workforce.

9. Enhances Problem Solving Skills

Those with critical thinking skills tend to solve problems as part of their natural instinct. Critical thinkers are patient and committed to solving the problem, similar to Albert Einstein, one of the best critical thinking examples, who said “It’s not that I’m so smart; it’s just that I stay with problems longer.” Critical thinkers’ enhanced problem-solving skills makes them better at their jobs and better at solving the world’s biggest problems. Like Einstein, they have the potential to literally change the world.

10. An Activity For The Mind

Just like our muscles, in order for them to be strong, our mind also needs to be exercised and challenged. It’s safe to say that critical thinking is almost like an activity for the mind — and it needs to be practiced. Critical thinking encourages the development of many crucial skills such as logical thinking, decision making, and open-mindness.

11. Creates Independence

When we think critically, we think on our own as we trust ourselves more. Critical thinking is key to creating independence, and encouraging students to make their own decisions and form their own opinions.

12. Crucial Life Skill

Critical thinking is crucial not just for learning, but for life overall! Education isn’t just a way to prepare ourselves for life, but it’s pretty much life itself. Learning is a lifelong process that we go through each and every day.

How To Improve Your Critical Thinking

Now that you know the benefits of thinking critically, how do you actually do it?

Define Your Question: When it comes to critical thinking, it’s important to always keep your goal in mind. Know what you’re trying to achieve, and then figure out how to best get there.
Gather Reliable Information: Make sure that you’re using sources you can trust — biases aside. That’s how a real critical thinker operates!
Ask The Right Questions: We all know the importance of questions, but be sure that you’re asking the right questions that are going to get you to your answer.
Look Short & Long Term: When coming up with solutions, think about both the short- and long-term consequences. Both of them are significant in the equation.
Explore All Sides: There is never just one simple answer, and nothing is black or white. Explore all options and think outside of the box before you come to any conclusions.

How Is Critical Thinking Developed At School?

Critical thinking is developed in nearly everything we do, but much of this essential skill is encouraged and practiced in school. Fostering a culture of inquiry is crucial, encouraging students to ask questions, analyze information, and evaluate evidence.

Teaching strategies like Socratic questioning, problem-based learning, and collaborative discussions help students think for themselves. When teachers ask questions, students can respond critically and reflect on their learning. Group discussions also expand their thinking, making them independent thinkers and effective problem solvers.

How Does Critical Thinking Apply To Your Career?

Critical thinking is a valuable asset in any career. Employers value employees who can think critically, ask insightful questions, and offer creative solutions. Demonstrating critical thinking skills can set you apart in the workplace, showing your ability to tackle complex problems and make informed decisions.

In many careers, from law and medicine to business and engineering, critical thinking is essential. Lawyers analyze cases, doctors diagnose patients, business analysts evaluate market trends, and engineers solve technical issues—all requiring strong critical thinking skills.

Critical thinking also enhances your ability to communicate effectively, making you a better team member and leader. By analyzing and evaluating information, you can present clear, logical arguments and make persuasive presentations.

Incorporating critical thinking into your career helps you stay adaptable and innovative. It encourages continuous learning and improvement, which are crucial for professional growth and success in a rapidly changing job market.

Photo by Oladimeji Ajegbile from Pexels

Critical thinking is a vital skill with far-reaching benefits for personal and professional success. It involves systematic skills such as analysis, evaluation, inference, interpretation, and explanation to assess information and arguments.

By gathering relevant data, considering alternative perspectives, and using logical reasoning, critical thinking enables informed decision-making. Reflecting on and refining these processes further enhances their effectiveness.

The future of critical thinking holds significant importance as it remains essential for adapting to evolving challenges and making sound decisions in various aspects of life.

What are the benefits of developing critical thinking skills?

Critical thinking enhances decision-making, problem-solving, and the ability to evaluate information critically. It helps in making informed decisions, understanding others’ perspectives, and improving overall cognitive abilities.

How does critical thinking contribute to problem-solving abilities?

Critical thinking enables you to analyze problems thoroughly, consider multiple solutions, and choose the most effective approach. It fosters creativity and innovative thinking in finding solutions.

What role does critical thinking play in academic success?

Critical thinking is crucial in academics as it allows you to analyze texts, evaluate evidence, construct logical arguments, and understand complex concepts, leading to better academic performance.

How does critical thinking promote effective communication skills?

Critical thinking helps you articulate thoughts clearly, listen actively, and engage in meaningful discussions. It improves your ability to argue logically and understand different viewpoints.

How can critical thinking skills be applied in everyday situations?

You can use critical thinking to make better personal and professional decisions, solve everyday problems efficiently, and understand the world around you more deeply.

What role does skepticism play in critical thinking?

Skepticism encourages questioning assumptions, evaluating evidence, and distinguishing between facts and opinions. It helps in developing a more rigorous and open-minded approach to thinking.

What strategies can enhance critical thinking?

Strategies include asking probing questions, engaging in reflective thinking, practicing problem-solving, seeking diverse perspectives, and analyzing information critically and logically.

In this article

At UoPeople, our blog writers are thinkers, researchers, and experts dedicated to curating articles relevant to our mission: making higher education accessible to everyone.

Educationise

11 Activities That Promote Critical Thinking In The Class

Ignite your child’s curiosity with our exclusive “Learning Adventures Activity Workbook for Kids” a perfect blend of education and adventure!

Critical thinking activities encourage individuals to analyze, evaluate, and synthesize information to develop informed opinions and make reasoned decisions. Engaging in such exercises cultivates intellectual agility, fostering a deeper understanding of complex issues and honing problem-solving skills for navigating an increasingly intricate world. Through critical thinking, individuals empower themselves to challenge assumptions, uncover biases, and constructively contribute to discourse, thereby enriching both personal growth and societal progress.

Critical thinking serves as the cornerstone of effective problem-solving, enabling individuals to dissect challenges, explore diverse perspectives, and devise innovative solutions grounded in logic and evidence. For engaging problem solving activities, read our article problem solving activities that enhance student’s interest.

52 Critical Thinking Flashcards for Problem Solving

What is Critical Thinking?

Critical thinking is a 21st-century skill that enables a person to think rationally and logically in order to reach a plausible conclusion. A critical thinker assesses facts and figures and data objectively and determines what to believe and what not to believe. Critical thinking skills empower a person to decipher complex problems and make impartial and better decisions based on effective information.

Importance of Acquiring Critical Thinking Skills

Critical thinking skills cultivate habits of mind such as strategic thinking, skepticism, discerning fallacy from the facts, asking good questions and probing deep into the issues to find the truth. Acquiring critical thinking skills was never as valuable as it is today because of the prevalence of the modern knowledge economy. Today, information and technology are the driving forces behind the global economy. To keep pace with ever-changing technology and new inventions, one has to be flexible enough to embrace changes swiftly.

Today critical thinking skills are one of the most sought-after skills by the companies. In fact, critical thinking skills are paramount not only for active learning and academic achievement but also for the professional career of the students. The lack of critical thinking skills catalyzes memorization of the topics without a deeper insight, egocentrism, closed-mindedness, reduced student interest in the classroom and not being able to make timely and better decisions.

Benefits of Critical Thinking Skills in Education

Certain strategies are more eloquent than others in teaching students how to think critically. Encouraging critical thinking in the class is indispensable for the learning and growth of the students. In this way, we can raise a generation of innovators and thinkers rather than followers. Some of the benefits offered by thinking critically in the classroom are given below:

It allows a student to decipher problems and think through the situations in a disciplined and systematic manner
Through a critical thinking ability, a student can comprehend the logical correlation between distinct ideas
The student is able to rethink and re-justify his beliefs and ideas based on facts and figures
Critical thinking skills make the students curious about things around them
A student who is a critical thinker is creative and always strives to come up with out of the box solutions to intricate problems

Read our article: How to Foster Critical Thinking Skills in Students? Creative Strategies and Real-World Examples

Critical thinking skills assist in the enhanced student learning experience in the classroom and prepares the students for lifelong learning and success
The critical thinking process is the foundation of new discoveries and inventions in the world of science and technology
The ability to think critically allows the students to think intellectually and enhances their presentation skills, hence they can convey their ideas and thoughts in a logical and convincing manner
Critical thinking skills make students a terrific communicator because they have logical reasons behind their ideas

Critical Thinking Lessons and Activities

11 Activities that Promote Critical Thinking in the Class

We have compiled a list of 11 activities that will facilitate you to promote critical thinking abilities in the students. We have also covered problem solving activities that enhance student’s interest in our another article. Click here to read it.

1. Worst Case Scenario

Divide students into teams and introduce each team with a hypothetical challenging scenario. Allocate minimum resources and time to each team and ask them to reach a viable conclusion using those resources. The scenarios can include situations like stranded on an island or stuck in a forest. Students will come up with creative solutions to come out from the imaginary problematic situation they are encountering. Besides encouraging students to think critically, this activity will enhance teamwork, communication and problem-solving skills of the students.

Read our article: 10 Innovative Strategies for Promoting Critical Thinking in the Classroom

2. If You Build It

It is a very flexible game that allows students to think creatively. To start this activity, divide students into groups. Give each group a limited amount of resources such as pipe cleaners, blocks, and marshmallows etc. Every group is supposed to use these resources and construct a certain item such as building, tower or a bridge in a limited time. You can use a variety of materials in the classroom to challenge the students. This activity is helpful in promoting teamwork and creative skills among the students.

It is also one of the classics which can be used in the classroom to encourage critical thinking. Print pictures of objects, animals or concepts and start by telling a unique story about the printed picture. The next student is supposed to continue the story and pass the picture to the other student and so on.

4. Keeping it Real

In this activity, you can ask students to identify a real-world problem in their schools, community or city. After the problem is recognized, students should work in teams to come up with the best possible outcome of that problem.

5. Save the Egg

Make groups of three or four in the class. Ask them to drop an egg from a certain height and think of creative ideas to save the egg from breaking. Students can come up with diverse ideas to conserve the egg like a soft-landing material or any other device. Remember that this activity can get chaotic, so select the area in the school that can be cleaned easily afterward and where there are no chances of damaging the school property.

6. Start a Debate

In this activity, the teacher can act as a facilitator and spark an interesting conversation in the class on any given topic. Give a small introductory speech on an open-ended topic. The topic can be related to current affairs, technological development or a new discovery in the field of science. Encourage students to participate in the debate by expressing their views and ideas on the topic. Conclude the debate with a viable solution or fresh ideas generated during the activity through brainstorming.

7. Create and Invent

This project-based learning activity is best for teaching in the engineering class. Divide students into groups. Present a problem to the students and ask them to build a model or simulate a product using computer animations or graphics that will solve the problem. After students are done with building models, each group is supposed to explain their proposed product to the rest of the class. The primary objective of this activity is to promote creative thinking and problem-solving skills among the students.

8. Select from Alternatives

This activity can be used in computer science, engineering or any of the STEM (Science, Technology, Engineering, Mathematics) classes. Introduce a variety of alternatives such as different formulas for solving the same problem, different computer codes, product designs or distinct explanations of the same topic.

Form groups in the class and ask them to select the best alternative. Each group will then explain its chosen alternative to the rest of the class with reasonable justification of its preference. During the process, the rest of the class can participate by asking questions from the group. This activity is very helpful in nurturing logical thinking and analytical skills among the students.

9. Reading and Critiquing

Present an article from a journal related to any topic that you are teaching. Ask the students to read the article critically and evaluate strengths and weaknesses in the article. Students can write about what they think about the article, any misleading statement or biases of the author and critique it by using their own judgments.

In this way, students can challenge the fallacies and rationality of judgments in the article. Hence, they can use their own thinking to come up with novel ideas pertaining to the topic.

10. Think Pair Share

In this activity, students will come up with their own questions. Make pairs or groups in the class and ask the students to discuss the questions together. The activity will be useful if the teacher gives students a topic on which the question should be based.

For example, if the teacher is teaching biology, the questions of the students can be based on reverse osmosis, human heart, respiratory system and so on. This activity drives student engagement and supports higher-order thinking skills among students.

11. Big Paper – Silent Conversation

Silence is a great way to slow down thinking and promote deep reflection on any subject. Present a driving question to the students and divide them into groups. The students will discuss the question with their teammates and brainstorm their ideas on a big paper. After reflection and discussion, students can write their findings in silence. This is a great learning activity for students who are introverts and love to ruminate silently rather than thinking aloud.

Finally, for students with critical thinking, you can go to GS-JJ.co m to customize exclusive rewards, which not only enlivens the classroom, but also promotes the development and training of students for critical thinking.

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Thanks for the great article! Especially with the post-pandemic learning gap, these critical thinking skills are essential! It’s also important to teach them a growth mindset. If you are interested in that, please check out The Teachers’ Blog!

Don’t Just Tell Students to Solve Problems. Teach Them How.

The positive impact of an innovative UC San Diego problem-solving educational curriculum continues to grow

Daniel Kane - [email protected]

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Not getting stuck

One of the overarching goals of this project is to teach both problem-identification and problem-solving skills that help students avoid getting stuck during the learning process. Stuck feelings lead to frustration – and when it’s a Science, Technology, Engineering and Math (STEM) project, that frustration can lead students to feel they don’t belong in a STEM major or a STEM career. Instead, the UC San Diego curriculum is designed to give students the tools that lead to reactions like “this class is hard, but I know I can do this!” – as Ogo, a celebrated high school biomedical sciences and technology teacher, put it.

Three years into the curriculum development effort, the light-hearted energy of the students combined with their intense focus points to success. On the last day of the class, Mourad Mjahed PhD, Director of the MESA Program at Southwestern College’s School of Mathematics, Science and Engineering came to UC San Diego to see the final project presentations made by his 22 MESA students.

“Industry is looking for students who have learned from their failures and who have worked outside of their comfort zones,” said Mjahed. The UC San Diego problem-solving curriculum, Mjahed noted, is an opportunity for students to build the skills and the confidence to learn from their failures and to work outside their comfort zone. “And from there, they see pathways to real careers,” he said.

What does it mean to explicitly teach problem solving?

This approach to teaching problem solving includes a significant focus on learning to identify the problem that actually needs to be solved, in order to avoid solving the wrong problem. The curriculum is organized so that each day is a complete experience. It begins with the teacher introducing the problem-identification or problem-solving strategy of the day. The teacher then presents case studies of that particular strategy in action. Next, the students get introduced to the day’s challenge project. Working in teams, the students compete to win the challenge while integrating the day’s technique. Finally, the class reconvenes to reflect. They discuss what worked and didn't work with their designs as well as how they could have used the day’s problem-identification or problem-solving technique more effectively.

The challenges are designed to be engaging – and over three years, they have been refined to be even more engaging. But the student engagement is about much more than being entertained. Many of the students recognize early on that the problem-identification and problem-solving skills they are learning can be applied not just in the classroom, but in other classes and in life in general.

Gabriel from Southwestern College is one of the students who saw benefits outside the classroom almost immediately. In addition to taking the UC San Diego problem-solving course, Gabriel was concurrently enrolled in an online computer science programming class. He said he immediately started applying the UC San Diego problem-identification and troubleshooting strategies to his coding assignments.

Gabriel noted that he was given a coding-specific troubleshooting strategy in the computer science course, but the more general problem-identification strategies from the UC San Diego class had been extremely helpful. It’s critical to “find the right problem so you can get the right solution. The strategies here,” he said, “they work everywhere.”

Phan echoed this sentiment. “We believe this curriculum can prepare students for the technical workforce. It can prepare students to be impactful for any career path.”

The goal is to be able to offer the course in community colleges for course credit that transfers to the UC, and to possibly offer a version of the course to incoming students at UC San Diego.

As the team continues to work towards integrating the curriculum in both standardized high school courses such as physics, and incorporating the content as a part of the general education curriculum at UC San Diego, the project is expected to impact thousands more students across San Diego annually.

Portrait of the Problem-Solving Curriculum

On a sunny Wednesday in July 2023, an experiential-learning classroom was full of San Diego community college students. They were about half-way through the three-week problem-solving course at UC San Diego, held in the campus’ EnVision Arts and Engineering Maker Studio. On this day, the students were challenged to build a contraption that would propel at least six ping pong balls along a kite string spanning the laboratory. The only propulsive force they could rely on was the air shooting out of a party balloon.

A team of three students from Southwestern College – Valeria, Melissa and Alondra – took an early lead in the classroom competition. They were the first to use a plastic bag instead of disposable cups to hold the ping pong balls. Using a bag, their design got more than half-way to the finish line – better than any other team at the time – but there was more work to do.

As the trio considered what design changes to make next, they returned to the problem-solving theme of the day: unintended consequences. Earlier in the day, all the students had been challenged to consider unintended consequences and ask questions like: When you design to reduce friction, what happens? Do new problems emerge? Did other things improve that you hadn’t anticipated?

Other groups soon followed Valeria, Melissa and Alondra’s lead and began iterating on their own plastic-bag solutions to the day’s challenge. New unintended consequences popped up everywhere. Switching from cups to a bag, for example, reduced friction but sometimes increased wind drag.

Over the course of several iterations, Valeria, Melissa and Alondra made their bag smaller, blew their balloon up bigger, and switched to a different kind of tape to get a better connection with the plastic straw that slid along the kite string, carrying the ping pong balls.

One of the groups on the other side of the room watched the emergence of the plastic-bag solution with great interest.

“We tried everything, then we saw a team using a bag,” said Alexander, a student from City College. His team adopted the plastic-bag strategy as well, and iterated on it like everyone else. They also chose to blow up their balloon with a hand pump after the balloon was already attached to the bag filled with ping pong balls – which was unique.

“I don’t want to be trying to put the balloon in place when it's about to explode,” Alexander explained.

Asked about whether the structured problem solving approaches were useful, Alexander’s teammate Brianna, who is a Southwestern College student, talked about how the problem-solving tools have helped her get over mental blocks. “Sometimes we make the most ridiculous things work,” she said. “It’s a pretty fun class for sure.”

Yoshadara, a City College student who is the third member of this team, described some of the problem solving techniques this way: “It’s about letting yourself be a little absurd.”

Alexander jumped back into the conversation. “The value is in the abstraction. As students, we learn to look at the problem solving that worked and then abstract out the problem solving strategy that can then be applied to other challenges. That’s what mathematicians do all the time,” he said, adding that he is already thinking about how he can apply the process of looking at unintended consequences to improve both how he plays chess and how he goes about solving math problems.

Looking ahead, the goal is to empower as many students as possible in the San Diego area and beyond to learn to problem solve more enjoyably. It’s a concrete way to give students tools that could encourage them to thrive in the growing number of technical careers that require sharp problem-solving skills, whether or not they require a four-year degree.

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Helping Students Hone Their Critical Thinking Skills

Used consistently, these strategies can help middle and high school teachers guide students to improve much-needed skills.

Middle school students involved in a classroom discussion

Critical thinking skills are important in every discipline, at and beyond school. From managing money to choosing which candidates to vote for in elections to making difficult career choices, students need to be prepared to take in, synthesize, and act on new information in a world that is constantly changing.

While critical thinking might seem like an abstract idea that is tough to directly instruct, there are many engaging ways to help students strengthen these skills through active learning.

Make Time for Metacognitive Reflection

Create space for students to both reflect on their ideas and discuss the power of doing so. Show students how they can push back on their own thinking to analyze and question their assumptions. Students might ask themselves, “Why is this the best answer? What information supports my answer? What might someone with a counterargument say?”

Through this reflection, students and teachers (who can model reflecting on their own thinking) gain deeper understandings of their ideas and do a better job articulating their beliefs. In a world that is go-go-go, it is important to help students understand that it is OK to take a breath and think about their ideas before putting them out into the world. And taking time for reflection helps us more thoughtfully consider others’ ideas, too.

Teach Reasoning Skills

Reasoning skills are another key component of critical thinking, involving the abilities to think logically, evaluate evidence, identify assumptions, and analyze arguments. Students who learn how to use reasoning skills will be better equipped to make informed decisions, form and defend opinions, and solve problems.

One way to teach reasoning is to use problem-solving activities that require students to apply their skills to practical contexts. For example, give students a real problem to solve, and ask them to use reasoning skills to develop a solution. They can then present their solution and defend their reasoning to the class and engage in discussion about whether and how their thinking changed when listening to peers’ perspectives.

A great example I have seen involved students identifying an underutilized part of their school and creating a presentation about one way to redesign it. This project allowed students to feel a sense of connection to the problem and come up with creative solutions that could help others at school. For more examples, you might visit PBS’s Design Squad , a resource that brings to life real-world problem-solving.

Ask Open-Ended Questions

Moving beyond the repetition of facts, critical thinking requires students to take positions and explain their beliefs through research, evidence, and explanations of credibility.

When we pose open-ended questions, we create space for classroom discourse inclusive of diverse, perhaps opposing, ideas—grounds for rich exchanges that support deep thinking and analysis.

For example, “How would you approach the problem?” and “Where might you look to find resources to address this issue?” are two open-ended questions that position students to think less about the “right” answer and more about the variety of solutions that might already exist.

Journaling, whether digitally or physically in a notebook, is another great way to have students answer these open-ended prompts—giving them time to think and organize their thoughts before contributing to a conversation, which can ensure that more voices are heard.

Once students process in their journal, small group or whole class conversations help bring their ideas to life. Discovering similarities between answers helps reveal to students that they are not alone, which can encourage future participation in constructive civil discourse.

Teach Information Literacy

Education has moved far past the idea of “Be careful of what is on Wikipedia, because it might not be true.” With AI innovations making their way into classrooms, teachers know that informed readers must question everything.

Understanding what is and is not a reliable source and knowing how to vet information are important skills for students to build and utilize when making informed decisions. You might start by introducing the idea of bias: Articles, ads, memes, videos, and every other form of media can push an agenda that students may not see on the surface. Discuss credibility, subjectivity, and objectivity, and look at examples and nonexamples of trusted information to prepare students to be well-informed members of a democracy.

One of my favorite lessons is about the Pacific Northwest tree octopus . This project asks students to explore what appears to be a very real website that provides information on this supposedly endangered animal. It is a wonderful, albeit over-the-top, example of how something might look official even when untrue, revealing that we need critical thinking to break down “facts” and determine the validity of the information we consume.

A fun extension is to have students come up with their own website or newsletter about something going on in school that is untrue. Perhaps a change in dress code that requires everyone to wear their clothes inside out or a change to the lunch menu that will require students to eat brussels sprouts every day.

Giving students the ability to create their own falsified information can help them better identify it in other contexts. Understanding that information can be “too good to be true” can help them identify future falsehoods.

Provide Diverse Perspectives

Consider how to keep the classroom from becoming an echo chamber. If students come from the same community, they may have similar perspectives. And those who have differing perspectives may not feel comfortable sharing them in the face of an opposing majority.

To support varying viewpoints, bring diverse voices into the classroom as much as possible, especially when discussing current events. Use primary sources: videos from YouTube, essays and articles written by people who experienced current events firsthand, documentaries that dive deeply into topics that require some nuance, and any other resources that provide a varied look at topics.

I like to use the Smithsonian “OurStory” page , which shares a wide variety of stories from people in the United States. The page on Japanese American internment camps is very powerful because of its first-person perspectives.

Practice Makes Perfect

To make the above strategies and thinking routines a consistent part of your classroom, spread them out—and build upon them—over the course of the school year. You might challenge students with information and/or examples that require them to use their critical thinking skills; work these skills explicitly into lessons, projects, rubrics, and self-assessments; or have students practice identifying misinformation or unsupported arguments.

Critical thinking is not learned in isolation. It needs to be explored in English language arts, social studies, science, physical education, math. Every discipline requires students to take a careful look at something and find the best solution. Often, these skills are taken for granted, viewed as a by-product of a good education, but true critical thinking doesn’t just happen. It requires consistency and commitment.

In a moment when information and misinformation abound, and students must parse reams of information, it is imperative that we support and model critical thinking in the classroom to support the development of well-informed citizens.

Critical Thinking Is All About “Connecting the Dots”

Why memory is the missing piece in teaching critical thinking..

Updated July 23, 2024 | Reviewed by Monica Vilhauer

Critical thinking requires us to simultaneously analyze and interpret different pieces of information.
To effectively interpret information, one must first be able to remember it.
With technology reducing our memory skills, we must work on strengthening them.

I have a couple of questions for my regular (or semi-regular) readers, touching on a topic I’ve discussed many times on this blog. When it comes to power, persuasion , and influence, why is critical thinking so crucial? Alternatively, what are some common traps and pitfalls for those who prioritize critical thinking? It's not necessary that you go in to great detail—just any vague or general information that comes to mind will do.

Great! Regardless of whether you recalled anything specific, the key is you made the effort to remember something. Like many questions I pose here, the real purpose is to illustrate a point. If you aim to be influential and persuasive—i.e., successful—in both work and life, you must be proficient in critical thinking. To achieve this proficiency, you need to cultivate and exercise your memory , a skill that is increasingly at risk in a technology-saturated age.

Remembering Is the Foundation of Knowing

Learning and remembering something are often discussed as if they are two separate processes, but they are inextricably linked . Consider this: Everything you know now is something you once had to learn, from basic facts to complex knowledge and skills. Retaining this information as actual knowledge, rather than fleeting stimuli, depends entirely on memory. Without memory, there is no knowledge. Consequently, there can be no critical thinking, as it relies on prior knowledge, which in turn relies on memory.

Students sometimes tell me that they want to learn how to be good critical thinkers but complain about having to “memorize stuff.” On these occasions I will often say, in a playfully teasing manner, “What I hear you saying is that you're bothered by having to remember stuff.” This usually helps them see how silly and unreasonable it is to complain about memorizing information, as there isn’t a single course in existence that doesn’t require remembering something . The ability to remember is at the core of critical thinking, and I often use the simple visual demonstration that follows to illustrate this point.

Collecting Dots and Connecting the Dots

Benjamin Bloom, an educational psychologist, developed a model known as the “Taxonomy of Learning.” Originally intended for educational psychology, this model also highlights why memory is the foundation of critical thinking—or any kind of thinking at all.

Humans are creatures of interpretation, constantly processing the information we perceive. This ability has made us the scientists, inventors, and artists that we are today. To interpret information, however, we must first remember it—not all information, obviously, as that’s impossible. Thanks to technology (which we’ll get to momentarily) we have vast amounts of information potentially at our fingertips. But how do you know what information to look up in a given situation? To know where to start and avoid endlessly searching irrelevant data, you need to remember enough of the right kind of information.

Think of a crime movie where an investigator, while reviewing evidence, suddenly has an epiphany and rushes off to confirm their hunch. These scenes illustrate that while the investigator needs more information, they remember enough to know what to search for.

Here’s a visual demonstration I use in class to help my students understand. Imagine you have pieces of information represented as five dots:

Now let’s say that any coherent shape or picture you can draw using these dots is an interpretation of the information. When examined together, what might these five dots mean? Here’s one way to connect the dots.

What does this shape represent? Many people will quickly say it’s a house, a common and reasonable interpretation. But not everyone sees it as a house. Some might say it’s the home plate used in baseball. Even when people connect the dots (i.e., interpret a cluster of information) the same way using the same lines, they don’t necessarily interpret the picture the same way. The situation becomes more complex when people connect the dots differently, creating a completely different shape or picture.

Now, having connected the dots differently, instead of a house, we have a star. Or at least some would consider it a star; others might say it’s an occult or magic symbol—these are all very different interpretations. This shows that with the same pieces of information, people can “connect the dots” differently, and even when they connect them the same way, they see different things.

Now what happens when additional information is added or an alleged “missing dot” is perceived by others?

With just one additional dot, what could have previously been interpreted as a 5-pointed star can now be reasonably interpreted as the Star of David.

Finally, sometimes the additional information can lead to a completely different shape or image, resulting in a “eureka” moment of insight. What previously appeared as different types of stars now looks like a circle.

I use this classroom demonstration to illustrate how people can interpret the same objective information in highly subjective ways, creating different narratives for themselves and others. This is a crucial point to remember when aiming to influence or persuade others—i.e., the need to see things from their perspective. Additionally, this activity powerfully underscores the importance of “collecting dots”—that is, the importance of remembering crucial bits of information. Without enough such dots, you lack the basic information needed to form meaningful ideas. Without meaningful ideas, you can’t think critically, influence, or persuade. It’s as straightforward as that.

Memory in the Age of Omnipresent Technology

Why is it so crucial to recognize that memory is foundational to critical thinking, power, influence, and persuasion? Partly because this fact isn’t widely acknowledged—and it needs to be. Additionally, we live in an era where memory is under unprecedented assault. While technology allows us to achieve remarkable feats unimaginable to previous generations, it comes at a cost. One such cost is “digital-induced amnesia,” where our memory capabilities atrophy due to information overload and technology taking over many of the cognitive tasks we used to perform ourselves.

Memory doesn’t exist in isolation. It’s closely tied to traits like the ability to focus and pay attention . If you’re not paying attention, you can’t absorb the information that you want or need to remember. Unfortunately, technology also impacts our ability to focus , and this doesn’t even touch on the dramatic ways AI ’s explosive development might undermine our thinking skills .

This article won’t delve into specifics on improving focus and memory in an age of tech ubiquity. Fortunately, resources from Psychology Today can help with that. My goal here is to convince you why memory is so vital for anyone who wishes to be a critical thinker and a persuasive, influential person. Now you know. Whether you’ll remember or not...only time will tell.

Craig Barkacs, MBA, JD, is a professor of business law at the University of San Diego School of Business and a trial lawyer with three decades of experience as an attorney in high-profile cases.

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Coding camp helps middle schoolers in Montgomery Co. recover from pandemic setbacks

by Kellye Lynn

Coding camp helps middle schoolers in Montgomery County recover from pandemic setbacks (7News).

MONTGOMERY COUNTY, Md. (7News) — Navika Duvey is a rising seventh grader who is expanding her understanding of coding at summer camp.

"Problem-solving, those skills you learn in math is also in coding," she told 7News.

It's an important connection as Montgomery County Public Schools students and those around the country make slow progress in recovering from pandemic-related academic losses.

READ| Delta struggles with baggage, delays after global IT outage leaves travelers stranded

The national decline in math scores has created what education experts call a data literacy crisis.

"A lot of our students are coming in at different levels, and basically the levels that they’re coming in at they might not have the skills to show their level of performance," explained educator and camp on-site coordinator Yvette Edwards.

For three weeks this summer, more than 800 Montgomery County Public Schools students are strengthening essential critical thinking and problem-solving skills through the Montgomery Can Code camp.

"To have an introduction to Apple Swift coding and learning app design," said Kimberly Bloch-Rincan, Director of ignITe Hub which runs Montgomery Can Code.

The free camp offered at three Montgomery College campuses is also inspiring these middle school students to pursue tech careers.

READ| Target stops taking checks; business expert thinks fighting fraud is the reason

11-year-old Veer Amin hopes to someday work as a robotics engineer.

"I love coding and I think coding’s really important to what you can do ahead in life," he said.

"A lot of computer and AI things are going to be very important in the future so I just want to get ahead of the game," student Wilson Dilone told 7News.

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2024-25 Upcoming Graduate Business/Management Information Systems Opportunities (Current or Prior Gore Interns/Co-Ops)

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Working with cross-functional teams, you will be involved with projects that support a diverse information systems environment. We are looking for students that have excellent interpersonal communication skills, have demonstrated skills in critical thinking, problem solving ability, and who are self-motivated.

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Chaos and Confusion: Tech Outage Causes Disruptions Worldwide

Airlines, hospitals and people’s computers were affected after CrowdStrike, a cybersecurity company, sent out a flawed software update.

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A view from above of a crowded airport with long lines of people.

By Adam Satariano Paul Mozur Kate Conger and Sheera Frenkel

July 19, 2024

Airlines grounded flights. Operators of 911 lines could not respond to emergencies. Hospitals canceled surgeries. Retailers closed for the day. And the actions all traced back to a batch of bad computer code.

A flawed software update sent out by a little-known cybersecurity company caused chaos and disruption around the world on Friday. The company, CrowdStrike , based in Austin, Texas, makes software used by multinational corporations, government agencies and scores of other organizations to protect against hackers and online intruders.

But when CrowdStrike sent its update on Thursday to its customers that run Microsoft Windows software, computers began to crash.

The fallout, which was immediate and inescapable, highlighted the brittleness of global technology infrastructure. The world has become reliant on Microsoft and a handful of cybersecurity firms like CrowdStrike. So when a single flawed piece of software is released over the internet, it can almost instantly damage countless companies and organizations that depend on the technology as part of everyday business.

“This is a very, very uncomfortable illustration of the fragility of the world’s core internet infrastructure,” said Ciaran Martin, the former chief executive of Britain’s National Cyber Security Center and a professor at the Blavatnik School of Government at Oxford University.

A cyberattack did not cause the widespread outage, but the effects on Friday showed how devastating the damage can be when a main artery of the global technology system is disrupted. It raised broader questions about CrowdStrike’s testing processes and what repercussions such software firms should face when flaws in their code cause major disruptions.

How a Software Update Crashed Computers Around the World

Here’s a visual explanation for how a faulty software update crippled machines.

How the airline cancellations rippled around the world (and across time zones)

Share of canceled flights at 25 airports on Friday

50% of flights

Ai r po r t

Bengalu r u K empeg o wda

Dhaka Shahjalal

Minneapolis-Saint P aul

Stuttga r t

Melbou r ne

Be r lin B r anden b urg

London City

Amsterdam Schiphol

Chicago O'Hare

Raleigh−Durham

B r adl e y

Cha r lotte

Reagan National

Philadelphia

1:20 a.m. ET

CrowdStrike’s stock price so far this year

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IMAGES

The benefits of critical thinking for students and how to develop it
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The benefits of critical thinking for students and how to develop it
Critical Thinking Skills
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COMMENTS

What is critical thinking?
Critical thinking is a kind of thinking in which you question, analyse, interpret , evaluate and make a judgement about what you read, hear, say, or write. The term critical comes from the Greek word kritikos meaning "able to judge or discern". Good critical thinking is about making reliable judgements based on reliable information.
Critical Thinking and Problem-Solving
Critical thinking involves asking questions, defining a problem, examining evidence, analyzing assumptions and biases, avoiding emotional reasoning, avoiding oversimplification, considering other interpretations, and tolerating ambiguity. Dealing with ambiguity is also seen by Strohm & Baukus (1995) as an essential part of critical thinking ...
Does College Teach Critical Thinking? A Meta-Analysis
Even without explicit attempts to foster critical thinking, there is certainly a widespread perception that college breeds critical thinkers. Tsui (1998) reported that 92% of students in a large multi-institution study believed they had made some gains in critical thinking, and 39.3% thought their critical thinking had grown much stronger. Only 8.9% believed it had not changed or had grown weaker.
Critical Thinking & Problem-Solving
In fact, critical thinking and problem-solving go hand-in-hand. They both refer to using knowledge, facts, and data to solve problems effectively, but with problem-solving, you are specifically identifying, selecting, and defending your solution. ... Critical thinking is a fundamental skill for college students, but it should also be a lifelong ...
The effectiveness of collaborative problem solving in promoting
A meta-analysis of 31 pieces of educational literature was conducted by Liu et al. to assess the impact of problem-solving on college students' critical thinking. These authors found that ...
Critical thinking for college, career, and citizenship
There are many studies showing substantial gains in critical thinking in college students, the military, and other populations as well. ... Good thinkers consider the steps of problem solving, how ...
How Higher Education Fosters Critical Thinking and Problem-Solving Skills
According to one study DBL teaches students how to look at the components of a problem and come to a rational decision. Evidence shows that there is a correlation between the development of problem-solving and critical thinking skills (Plummer et al. 2022). This style encourages students to look at all sides of an issue and come to a valid ...
Critical Thinking Skills
As a college student, you are tasked with engaging and expanding your thinking skills. One of the most important of these skills is critical thinking. ... In fact, critical thinking and problem-solving go hand-in-hand. They both refer to using knowledge, facts, and data to solve problems effectively. But with problem-solving, you are ...
Assessing Critical Thinking in Higher Education: Current State and
Ways of thinking-critical thinking, problem solving, and decision making ... 2010) are great examples of how a common framework can be created to align expectations about college students' critical thinking skills. While one should pay attention to the assessments' instructional relevance, one should also keep in mind that the tension will ...
7.5 Problem-Solving
7.4 Critical Thinking; 7.5 Problem-Solving; 7.6 Metacognition; 7.7 Information Literacy; Career Connection; ... or critical thinking skills—or more frequently, a combination of several different types of thinking—to solve a problem satisfactorily. When you approach a situation, how can you decide what is the best type of thinking to employ ...
Eight Instructional Strategies for Promoting Critical Thinking
Students grappled with ideas and their beliefs and employed deep critical-thinking skills to develop arguments for their claims. Embedding critical-thinking skills in curriculum that students care ...
Teaching students to think critically (opinion)
Teaching Students to Think Critically. Just as enough consensus exists about what critical thinking is, so too we have adequate agreement regarding how critical thinking is best taught. Research shows that elements of critical thinking need to be taught explicitly, rather than assumed to come along for the ride when thoughtful teachers run ...
1.2: Problem Solving with Critical Thinking
Problem-Solving with Critical Thinking for Community College Students. Critical thinking plays a vital role in problem-solving by enabling us to approach issues systematically and thoughtfully. Here are some examples of how critical thinking can be applied to problem-solving in various life scenarios community college students might encounter:
Strategies to Increase Critical Thinking Skills in students
Some essential skills that are the basis for critical thinking are: Communication and Information skills. Thinking and Problem-Solving skills. Interpersonal and Self- Directional skills. Collaboration skills. These four bullets are skills students are going to need in any field and in all levels of education. Hence my answer to the question.
Decision-making and Problem-solving
A 5-Step Problem-Solving Strategy. Specify the problem - a first step to solving a problem is to identify it as specifically as possible. It involves evaluating the present state and determining how it differs from the goal state. Analyze the problem - analyzing the problem involves learning as much as you can about it.
The Importance Of Critical Thinking, and how to improve it
Critical thinking can help you better understand yourself, and in turn, help you avoid any kind of negative or limiting beliefs, and focus more on your strengths. Being able to share your thoughts can increase your quality of life. 4. Form Well-Informed Opinions.
11 Activities That Promote Critical Thinking In The Class
For example, if the teacher is teaching biology, the questions of the students can be based on reverse osmosis, human heart, respiratory system and so on. This activity drives student engagement and supports higher-order thinking skills among students. 52 Critical Thinking Flashcards for Problem Solving. 11. Big Paper - Silent Conversation
The Emerging Crisis in Critical Thinking
Cognition The Emerging Crisis in Critical Thinking Today's college students all too often struggle with real-world problem-solving. Posted March 21, 2017 | Reviewed by Ekua Hagan
Don't Just Tell Students to Solve Problems. Teach Them How
In Summer 2023, th e 27 community college students who took the unique problem-solving course developed at the UC San Diego Jacobs School of Engineering thrived, according to Alex Phan PhD, the Executive Director of Student Success at the UC San Diego Jacobs School of Engineering. Phan oversees the project. Over the course of three weeks, these students from Southwestern College and San Diego ...
The development of critical thinking: what university students have to
Here, we argue that student voice in critical thinking research has not received enough attention and that student perspectives can contribute to its theories of teaching and learning. The research was conducted by three undergraduate authors and examine what fellow students had to say about developing critical thinking. An empirical model ...
Helping Students Hone Their Critical Thinking Skills
Teach Reasoning Skills. Reasoning skills are another key component of critical thinking, involving the abilities to think logically, evaluate evidence, identify assumptions, and analyze arguments. Students who learn how to use reasoning skills will be better equipped to make informed decisions, form and defend opinions, and solve problems.
Critical Thinking Is All About "Connecting the Dots"
Students sometimes tell me that they want to learn how to be good critical thinkers but complain about having to "memorize stuff." On these occasions I will often say, in a playfully teasing ...
"Stop Coddling Your Grown Child": 21 Essential Life Skills ...
Critical thinking and problem-solving skills are essential in and out of the classroom. Encourage them to think independently, question assumptions, and approach problems logically.
Explained: Importance of critical thinking, problem-solving skills in
Critical thinking and problem-solving skills are two of the most sought-after skills. Hence, schools should emphasise the upskilling of students as a part of the academic curriculum.
Coding camp helps middle schoolers in Montgomery Co. recover from
For three weeks this summer, more than 800 Montgomery County Public Schools students are strengthening essential critical thinking and problem-solving skills through the Montgomery Can Code camp.
Leadership Unleashed Pt. 1-3: Connections
Leadership is about the connections we have, wherever we have them. Join the Center for Student Happiness as we discuss how critical thinking, problem solving, and communication play a role in our leadership development. You will receive an email approximately one hour before the workshop begins with a link to the session and a link to the recording 1-2 business days afterwards.
2024-25 Upcoming Graduate Business/Management Information Systems
Working with cross-functional teams, you will be involved with projects that support a diverse information systems environment. We are looking for students that have excellent interpersonal communication skills, have demonstrated skills in critical thinking, problem solving ability, and who are self-motivated.
CrowdStrike-Microsoft Outage: What Caused the IT Meltdown
Chaos and Confusion: Tech Outage Causes Disruptions Worldwide. Airlines, hospitals and people's computers were affected after CrowdStrike, a cybersecurity company, sent out a flawed software update.

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It’s Time to Get Serious About Teaching Critical Thinking