critical thinking involves understanding summarizing and remembering

All 6 Levels of Understanding (on Bloom’s Taxonomy)

According to Benjamin Bloom, there are 6 levels of understanding that we pass through as our intellect grows. They are remembering, understanding, applying, analyzing, evaluating, and creating. He laid these out in his famous Bloom’s Taxonomy.

Bloom’s taxonomy is a hierarchical arrangement of six cognitive processing abilities and educational objectives that range from simple to complex and concrete to abstract.

The taxonomy starts with the proposition that learning exists on a continuum that reflects degrees of understanding and learning.

About Bloom’s Taxonomy

According to Bloom’s taxonomy , students must first learn basic facts of a subject and gradually progress to more advanced levels of understanding that eventually lead to being able to produce original knowledge.

In addition to identifying the cognitive abilities at each level of understanding, the taxonomy also includes describing the affective and psychomotor processes that are involved at each level.

Although the taxonomy is named after Benjamin Bloom in the book Taxonomy of Educational Objectives (1956), the work was the result of a collaboration that included coauthors Max Englehart, Edward Furst, Walter Hill, and David Krathwohl. A revision was later produced in 2001.

6 Levels of Understanding

1. remembering.

This is the most fundamental level of understanding that involves remembering basic information regarding a subject matter. This means that students will be able to define concepts, list facts, repeat key arguments, memorize details, or repeat information.

This is the first step of developing a comprehensive understanding of a subject, but it doesn’t not mean that the student has a very deep understanding. Producing a critical analysis or counterarguments are beyond the student’s ability at this level.

For example, a history teacher may assign a reading and give a lecture about a significant historical event. The material includes information about the key figures involved and outlining the chronological of events that took place.

For assessment, the exam asks students to answer questions about the dates of certain events and the names of the people associated with those events. In one section of the exam, students are presented with a blank timeline with some dates indicated. They have to write the name of the event that took place at that date and give the name of at least two people involved.

In another section of the exam, students answer multiple choice questions about the role of key figures. Other questions describe an event and then students must choose the name of the person associated with that moment.

At this level of understanding, students are expected to memorize information. This is a form of rote memory.

Synonyms for Remembering

2. understanding.

Understanding means being able to explain. This can involve explaining the meaning of a concept or an idea.

Students should be able to classify and categorize concepts based on descriptive terms or identify key features. If presented with a theory, students can describe the basic tenets and discuss the basic principles.

Although this level of understanding is more advanced, it is very descriptive. Students cannot produce an independent critical analysis of a theory or identify its strengths and weaknesses.

For example, in a psychology course, students might be asked to write a report on attachment. The report might include describing the basic characteristics of the different types of attachment and discussing in detail how attachments are formed.

Students should also be able to describe specific research studies in broad terms and explain the results well enough that another person could understand. This involves the ability to paraphrase. Instead of just repeating information straight for a source document, students should be able to describe the study in their own words.

Another version of assessment could include responding to simple questions about the subject matter. The response should come in the form of writing a short answer consisting of several sentences that shows the student understands the subject and is able to describe it from memory.

However, students will not be able to conduct a comparison of different theories, or identify their similarities and differences. Although the student clearly understands the theories, that level of understanding is not deep enough for them to generate a critical analysis.    

Synonyms for Understanding

3. applying  .

Applying refers to the ability to use information in situations other than the situation in which it was learned. This represents a deeper level of understanding.

The key development is the ability to “apply” information. Understanding can be demonstrated by taking knowledge and using it in a variety of ways.

This can involve using knowledge of how to perform a specific mathematical calculation to solve a problem or illustrate how a principle in physics can be seen in everyday life.

Students can engage in problem-solving on their own and discover solutions independently.

For example, if a physics teacher were to provide students information regarding the weight of a rocket and the degree of force generated by the engines, students could calculate how far the rocket would travel.

They could extend that understanding by performing the same calculations for a rocket traveling under different conditions related to gravity, wind resistance, and other factors.

Similarly, students should be able to illustrate specific concepts with examples or demonstrate simple scientific principles with various objects. This could involve showing how the weight of an object will affect its momentum or alter the direction of another moving object.

The key development in the student’s cognitive processing is the ability to apply descriptive information to a variety of situations.

Synonyms for Applying

4. analyzing.

Conducting an analysis independently is the next level of understanding. This includes the ability to draw logical conclusions based on given facts or make connections between various constructs.

Students are now able to identify the strengths and weaknesses of a theory, as well as compare and contrast different theoretical perspectives.

When studying literary works, students should be able to identify specific passages or statements that reflect the author’s philosophical perspective.

They can also identify patterns and trends in data, construct charts and graphs that organize information in a logical manner, and describe how and why data is connected.

For example, students in a political science course may be asked to identify the key ideals of democracy and socialism, highlight the differences and similarities, and discuss the ramifications of each political system.

Similarly, in an art class, students should be able to look at two works of art and make a variety of comparisons. This can include differentiating the genre of two pieces, identifying the medium used, compare and contrast the techniques used by the artist and the different effects those have on the viewer.

At this level of understanding, students are now able to manipulate information, organize it in meaningful ways according to various criteria, and both differentiate and connect various concepts.

Synonyms for Analyzing

See More Examples of Analysis Here

5. Evaluating

Evaluating means determining correctness. Here, students will be able to identify the merits of an argument or point of view and weigh the relative strengths of each point.

They can critique a decision or appraise the rationale given for a certain act.   

This level of understanding represents a significant advancement of cognitive processes. Now students are able to grapple with very abstract concepts.

This can be demonstrated by making arguments for or against a particular legal ruling, conducting a critical analysis underlying a socio-political philosophy, or discuss the various issues to consider in a moral dilemma .

For example, students in a law course may be asked to produce a legal brief regarding a controversial ruling.

This requires presenting the key elements of a case and critiquing the legal arguments presented by others. Ultimately, the student can produce a final judgement of the ruling and justify their position with facts and other legal precedents.

In another example, if presented with a debate topic, students should be able to take a position on the issue and support their view with logical arguments. They may cite facts or statistics that make their position stronger, while at the same time being able to pinpoint the weaknesses of the opposing side and support those criticisms with strong counterarguments .

The advancement here is the ability to critique , judge, and even criticize abstract concepts such as a theory, philosophy, or legal perspective.

Synonyms for Evaluating

6. creating.

The final level of Bloom’s taxonomy is when students can create something new. It is characterized by inventing, designing, and creating something that did not exist previously.

At this last level of cognitive ability, the student becomes the master. Instead of being a consumer of information, they are now producers.

This level requires the ability to use the features of all previous levels in a way that will then lead to producing something completely new.

For example, an individual may be able to author an original literary piece such as a novel or screenplay. Or, a person may invent a completely new way to analyze data by creating a new formula. Other examples include formulating a new theoretical perspective or inventing an original piece of machinery.

A less dramatic example would be in the case that a manager designs a detailed schedule to manage a project. The schedule will include assigning work teams based on abilities, allocating resources, anticipating problems, and developing contingencies.

This is the highest form of understanding that goes far beyond fundamental understanding and into the realm of creation.

Synonyms for Creating

Bloom’s taxonomy of understanding gives educators a framework that is helpful in understanding the progression of student abilities and a way to organize assessment. Sometimes, we might also refer to it as the levels of knowledge . Teachers at different grade levels should develop lessons and assessment strategies that correspond to their students’ level of abilities.

As students move up the educational ladder from K1 to secondary school, and then further to university study and doctoral training, their cognitive abilities and observable learning behaviors continuously evolve. They become capable of handling increasingly challenging educational tasks, starting from simply being able to list facts, to a level of development that can lead to the invention of a new piece of machinery or the creation of a literary work.

The taxonomy has been well-received in the education world and is still in use today by educators worldwide. Bloom’s original book has been translated into at least 20 languages. However, today, an alternative taxonomy called the SOLO taxonomy is increasingly used because it’s believed to present more measurable outcomes for teachers.

Anderson, L. W., Krathwohl, D. R., Airasian, P. W., Cruikshank, K. A., Mayer, R., Pintrich, P. R., Raths, J. D., & Wittrock, M. C. (2001). A Taxonomy for Learning, Teaching, and Assessing: A Revision of Bloom’s Taxonomy of Educational Objectives. New York: Longman

Bloom, B. S. (1956). Taxonomy of educational objectives. Vol. 1: Cognitive domain. New York: McKay , 20, 24.

Eber, P. A., & Parker, T. S. (2007). Assessing Student Learning: Applying Bloom’s Taxonomy. Human Service Education , 27 (1). Doi: link.gale.com/apps/doc/A280993786/AONE?u=anon~395a775c&sid=sitemap&xid=d925de51

Krathwohl, D. R. (2002). A revision of Bloom’s taxonomy: An overview. Theory into practice, 41 (4), 212-218. Doi: https://doi.org/10.1207/s15430421tip4104_2

Chris Drew (PhD)

Dr. Chris Drew is the founder of the Helpful Professor. He holds a PhD in education and has published over 20 articles in scholarly journals. He is the former editor of the Journal of Learning Development in Higher Education. [Image Descriptor: Photo of Chris]

• Chris Drew (PhD) https://helpfulprofessor.com/author/chris-drew-phd/ 17 Behaviorism Examples
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Bloom’s Revised Taxonomy

Using bloom's revised taxonomy in assessment.

These levels can be helpful in developing learning outcomes because certain verbs are particularly appropriate at each level and not appropriate at other levels (though some verbs are useful at multiple levels). A student might list presidents or proteins or participles to demonstrate that they remember something they learned, but generating a list does not demonstrate (for example) that the student is capable of evaluating the contribution of multiple presidents to American politics or explaining protein folding or distinguishing between active and passive participles.

Definition: retrieve, recall, or recognize relevant knowledge from long-term memory (e.g., recall dates of important events in U.S. history, remember the components of a bacterial cell). Appropriate learning outcome verbs for this level include: cite, define, describe, identify, label, list, match, name, outline, quote, recall, report, reproduce, retrieve, show, state, tabulate, and tell .

Definition: demonstrate comprehension through one or more forms of explanation (e.g., classify a mental illness, compare ritual practices in two different religions). Appropriate learning outcome verbs for this level include: abstract, arrange, articulate, associate, categorize, clarify, classify, compare, compute, conclude, contrast, defend, diagram, differentiate, discuss, distinguish, estimate, exemplify, explain, extend, extrapolate, generalize, give examples of, illustrate, infer, interpolate, interpret, match, outline, paraphrase, predict, rearrange, reorder, rephrase, represent, restate, summarize, transform, and translate .

Definition: use information or a skill in a new situation (e.g., use Newton's second law to solve a problem for which it is appropriate, carry out a multivariate statistical analysis using a data set not previously encountered). Appropriate learning outcome verbs for this level include: apply, calculate, carry out, classify, complete, compute, demonstrate, dramatize, employ, examine, execute, experiment, generalize, illustrate, implement, infer, interpret, manipulate, modify, operate, organize, outline, predict, solve, transfer, translate, and use .

Definition: break material into its constituent parts and determine how the parts relate to one another and/or to an overall structure or purpose (e.g., analyze the relationship between different flora and fauna in an ecological setting; analyze the relationship between different characters in a play; analyze the relationship between different institutions in a society). Appropriate learning outcome verbs for this level include: analyze , arrange, break down, categorize, classify, compare, connect, contrast, deconstruct, detect, diagram, differentiate, discriminate, distinguish, divide, explain, identify, integrate, inventory, order, organize, relate, separate, and structure .

Definition: make judgments based on criteria and standards (e.g., detect inconsistencies or fallacies within a process or product, determine whether a scientist's conclusions follow from observed data, judge which of two methods is the way to solve a given problem, determine the quality of a product based on disciplinary criteria). Appropriate learning outcome verbs for this level include: appraise, apprise, argue, assess, compare, conclude, consider, contrast, convince, criticize, critique, decide, determine, discriminate, evaluate, grade, judge, justify, measure, rank, rate, recommend, review, score, select, standardize, support, test, and validate .

Definitions: put elements together to form a new coherent or functional whole; reorganize elements into a new pattern or structure (design a new set for a theater production, write a thesis, develop an alternative hypothesis based on criteria, invent a product, compose a piece of music, write a play). Appropriate learning outcome verbs for this level include: arrange, assemble, build, collect, combine, compile, compose, constitute, construct, create, design, develop, devise, formulate, generate, hypothesize, integrate, invent, make, manage, modify, organize, perform, plan, prepare, produce, propose, rearrange, reconstruct, reorganize, revise, rewrite, specify, synthesize, and write .

Source: Anderson, Lorin W., and David R. Krathwohl, eds. 2001. A Taxonomy for Learning, Teaching, and Assessing: A Revision of Bloom's Taxonomy of Educational Objectives . New York: Addison Wesley Longman, Inc.

The Peak Performance Center

The pursuit of performance excellence, critical thinking.

Critical thinking refers to the process of actively analyzing, assessing, synthesizing, evaluating and reflecting on information gathered from observation, experience, or communication. It is thinking in a clear, logical, reasoned, and reflective manner to solve problems or make decisions. Basically, critical thinking is taking a hard look at something to understand what it really means.

Critical Thinkers

Critical thinkers do not simply accept all ideas, theories, and conclusions as facts. They have a mindset of questioning ideas and conclusions. They make reasoned judgments that are logical and well thought out by assessing the evidence that supports a specific theory or conclusion.

When presented with a new piece of new information, critical thinkers may ask questions such as;

“What information supports that?”

“How was this information obtained?”

“Who obtained the information?”

“How do we know the information is valid?”

“Why is it that way?”

“What makes it do that?”

“How do we know that?”

“Are there other possibilities?”

Combination of Analytical and Creative Thinking

Many people perceive critical thinking just as analytical thinking. However, critical thinking incorporates both analytical thinking and creative thinking. Critical thinking does involve breaking down information into parts and analyzing the parts in a logical, step-by-step manner. However, it also involves challenging consensus to formulate new creative ideas and generate innovative solutions. It is critical thinking that helps to evaluate and improve your creative ideas.

Elements of Critical Thinking

Critical thinking involves:

• Gathering relevant information
• Evaluating information
• Asking questions
• Assessing bias or unsubstantiated assumptions
• Making inferences from the information and filling in gaps
• Using abstract ideas to interpret information
• Formulating ideas
• Weighing opinions
• Reaching well-reasoned conclusions
• Considering alternative possibilities
• Testing conclusions
• Verifying if evidence/argument support the conclusions

Developing Critical Thinking Skills

Critical thinking is considered a higher order thinking skills, such as analysis, synthesis, deduction, inference, reason, and evaluation. In order to demonstrate critical thinking, you would need to develop skills in;

Interpreting : understanding the significance or meaning of information

Analyzing : breaking information down into its parts

Connecting : making connections between related items or pieces of information.

Integrating : connecting and combining information to better understand the relationship between the information.

Evaluating : judging the value, credibility, or strength of something

Reasoning : creating an argument through logical steps

Deducing : forming a logical opinion about something based on the information or evidence that is available

Inferring : figuring something out through reasoning based on assumptions and ideas

Generating : producing new information, ideas, products, or ways of viewing things.

Blooms Taxonomy

Bloom’s Taxonomy Revised

Mind Mapping

Chunking Information

Brainstorming

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Reading & Writing Purposes

Introduction: critical thinking, reading, & writing, critical thinking.

The phrase “critical thinking” is often misunderstood. “Critical” in this case does not mean finding fault with an action or idea. Instead, it refers to the ability to understand an action or idea through reasoning. According to the website SkillsYouNeed [1]:

Critical thinking might be described as the ability to engage in reflective and independent thinking.

In essence, critical thinking requires you to use your ability to reason. It is about being an active learner rather than a passive recipient of information.

Critical thinkers rigorously question ideas and assumptions rather than accepting them at face value. They will always seek to determine whether the ideas, arguments, and findings represent the entire picture and are open to finding that they do not.

Critical thinkers will identify, analyze, and solve problems systematically rather than by intuition or instinct.

Someone with critical thinking skills can:

• Understand the links between ideas.
• Determine the importance and relevance of arguments and ideas.
• Recognize, build, and appraise arguments.
• Identify inconsistencies and errors in reasoning.
• Approach problems in a consistent and systematic way.
• Reflect on the justification of their own assumptions, beliefs and values.

Read more at:  https://www.skillsyouneed.com/learn/critical-thinking.html

Critical thinking—the ability to develop your own insights and meaning—is a basic college learning goal. Critical reading and writing strategies foster critical thinking, and critical thinking underlies critical reading and writing.

Critical Reading

Critical reading builds on the basic reading skills expected for college.

College Readers’ Characteristics

• College readers are willing to spend time reflecting on the ideas presented in their reading assignments. They know the time is well-spent to enhance their understanding.
• College readers are able to raise questions while reading. They evaluate and solve problems rather than merely compile a set of facts to be memorized.
• College readers can think logically. They are fact-oriented and can review the facts dispassionately. They base their judgments on ideas and evidence.
• College readers can recognize error in thought and persuasion as well as recognize good arguments.
• College readers are skeptical. They understand that not everything in print is correct. They are diligent in seeking out the truth.

Critical Readers’ Characteristics

• Critical readers are open-minded. They seek alternative views and are open to new ideas that may not necessarily agree with their previous thoughts on a topic. They are willing to reassess their views when new or discordant evidence is introduced and evaluated.
• Critical readers are in touch with their own personal thoughts and ideas about a topic. Excited about learning, they are eager to express their thoughts and opinions.
• Critical readers are able to identify arguments and issues. They are able to ask penetrating and thought-provoking questions to evaluate ideas.
• Critical readers are creative. They see connections between topics and use knowledge from other disciplines to enhance their reading and learning experiences.
• Critical readers develop their own ideas on issues, based on careful analysis and response to others’ ideas.

The video below, although geared toward students studying for the SAT exam (Scholastic Aptitude Test used for many colleges’ admissions), offers a good, quick overview of the concept and practice of critical reading.

Critical Reading & Writing

College reading and writing assignments often ask you to react to, apply, analyze, and synthesize information. In other words, your own informed and reasoned ideas about a subject take on more importance than someone else’s ideas, since the purpose of college reading and writing is to think critically about information.

Critical thinking involves questioning. You ask and answer questions to pursue the “careful and exact evaluation and judgment” that the word “critical” invokes (definition from The American Heritage Dictionary ). The questions simply change depending on your critical purpose. Different critical purposes are detailed in the next pages of this text.

However, here’s a brief preview of the different types of questions you’ll ask and answer in relation to different critical reading and writing purposes.

When you react to a text you ask:

• “What do I think?” and
• “Why do I think this way?”

e.g., If I asked and answered these “reaction” questions about the topic assimilation of immigrants to the U.S. , I might create the following main idea statement, which I could then develop in an essay:  I think that assimilation has both positive and negative effects because, while it makes life easier within the dominant culture, it also implies that the original culture is of lesser value.

When you apply text information you ask:

• “How does this information relate to the real world?”

e.g., If I asked and answered this “application” question about the topic assimilation , I might create the following main idea statement, which I could then develop in an essay:  During the past ten years, a group of recent emigrants has assimilated into the local culture; the process of their assimilation followed certain specific stages.

When you analyze text information you ask:

• “What is the main idea?”
• “What do I want to ‘test’ in the text to see if the main idea is justified?” (supporting ideas, type of information, language), and
• “What pieces of the text relate to my ‘test?'”

e.g., If I asked and answered these “analysis” questions about the topic immigrants to the United States , I might create the following main idea statement, which I could then develop in an essay: Although Lee (2009) states that “segmented assimilation theory asserts that immigrant groups may assimilate into one of many social sectors available in American society, instead of restricting all immigrant groups to adapting into one uniform host society,” other theorists have shown this not to be the case with recent immigrants in certain geographic areas.

When you synthesize information from many texts you ask:

• “What information is similar and different in these texts?,” and
• “What pieces of information fit together to create or support a main idea?”

e.g., If I asked and answered these “synthesis” questions about the topic immigrants to the U.S. , I might create the following main idea statement, which I could then develop by using examples and information from many text articles as evidence to support my idea: Immigrants who came to the United States during the immigration waves in the early to mid 20th century traditionally learned English as the first step toward assimilation, a process that was supported by educators. Now, both immigrant groups and educators are more focused on cultural pluralism than assimilation, as can be seen in educators’ support of bilingual education. However, although bilingual education heightens the child’s reasoning and ability to learn, it may ultimately hinder the child’s sense of security within the dominant culture if that culture does not value cultural pluralism as a whole.

Critical reading involves asking and answering these types of questions in order to find out how the information “works” as opposed to just accepting and presenting the information that you read in a text. Critical writing involves recording your insights into these questions and offering your own interpretation of a concept or issue, based on the meaning you create from those insights.

• Crtical Thinking, Reading, & Writing. Authored by : Susan Oaks, includes material adapted from TheSkillsYouNeed and Reading 100; attributions below. Project : Introduction to College Reading & Writing. License : CC BY-NC: Attribution-NonCommercial
• Critical Thinking. Provided by : TheSkillsYouNeed. Located at : https://www.skillsyouneed.com/ . License : Public Domain: No Known Copyright . License Terms : Quoted from website: The use of material found at skillsyouneed.com is free provided that copyright is acknowledged and a reference or link is included to the page/s where the information was found. Read more at: https://www.skillsyouneed.com/
• The Reading Process. Authored by : Scottsdale Community College Reading Faculty. Provided by : Maricopa Community College. Located at : https://learn.maricopa.edu/courses/904536/files/32966438?module_item_id=7198326 . Project : Reading 100. License : CC BY: Attribution
• image of person thinking with light bulbs saying -idea- around her head. Authored by : Gerd Altmann. Provided by : Pixabay. Located at : https://pixabay.com/photos/light-bulb-idea-think-education-3704027/ . License : CC0: No Rights Reserved
• video What is Critical Reading? SAT Critical Reading Bootcamp #4. Provided by : Reason Prep. Located at : https://www.youtube.com/watch?v=5Hc3hmwnymw . License : Other . License Terms : YouTube video
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6 Critical Thinking and Summarizing

Finding the main idea.

Grace Richardson [1]  has the following to say about finding the main idea.

It is easy to get lost in the details of a piece of writing and miss the big picture. Being able to find the main idea and supporting points is an important skill that will help you understand what you are reading.

Have you ever read to the end of a passage and thought: “What was that about?” Sometimes a passage can seem like a string of facts or ideas. Recognizing the main idea of a passage is a vital reading skill. No matter what you’re reading, whether it is a news story, novel, or a chapter in a chemistry textbook, you need to understand what the author is trying to tell you. So how do you find the main idea? Start with the topic.

The topic of a piece of writing is like the title of a newspaper article, a song, or a book. Usually, it is a word or phrase, like Healthy Habits or Money. It gives you a glimpse of the subject, but not the details. For instance, what  topic  do you think would cover the following?

Performance cars

TOPIC            Kinds of vehicles

Once you discover the topic, look for the  main idea .

The main idea of a piece of writing is the point that the author wants to make about the topic. Often it is written as a statement at the beginning of a paragraph or essay, but sometimes it is at the end, in the middle, or even implied through the details. The main idea could also be called the  thesis  or the  central point.

For instance, the main idea for the topic above could be:  There are so many types of vehicles on the road today, that you should consider a number of things before buying.

Supporting Points

To support the main idea, a writer needs facts, ideas, and information. Some supporting points will be major while others will be minor, or more specific.

Major points are general or broad statements that provide support for the main idea. For instance ,  a major point for the above statement could be: First, consider your budget. It is important to keep in mind that major points can sometimes be implied from minor details that are presented in a text.

Minor points are more specific, such as important details like facts and examples. For instance, a minor, point for the major point “ First, consider your budget ” could be New pickups cost between $20,000 and $60,000 . While new SUVs can cost $75,000, and luxury RVs can cost over a million dollars.

Summarizing a Text

When you finish reading a text, it’s a great idea to stop for a moment and write a summary of what you just read; it is important to use your own words to express your understanding of what you have read.  Try and capture the text’s main idea and major points.

Writing a summary of a text will help you review what you read and will help your brain capture the main idea and major points. Writing these down cements the memories and help you recall them more easily later on.

In this video, Shaun Macleod explains the essentials to writing a summary [2] :

Burnell et al. [3] have the following to say about summarizing a text.

A good summary accomplishes the following:

• It identifies or names the piece and its author(s) and states the main idea of the text.
• It captures the text’s major points.
• It often excludes many of the minor points
• It does  not include the reader’s opinions, feelings, beliefs, counterarguments, etc.
• It is short; the idea of a summary is to “boil down” or condense a text to just a few sentences.

At times, you may be asked to cite the source within your article summary. See the APA Citations chapter in our e-textbook on how to cite source.

Critical Thinking

Burnell et al. [4]  have the following to say about how to think critically while reading.

When you work with a text, you enter into a conversation with it, responding with your thoughts, ideas, and feelings. The way each of us responds to any text has a lot to do with who we are: our age, education, cultural background, religion, ethnicity, life experiences, and so forth.

As you explore a text, be aware of how you’re responding to it.

• Are you reading or exploring easily or are you finding it difficult to navigate the text? Why do you believe this is so?
• Do you find yourself responding with some sort of strong emotion? If so, why do you think that may be happening?
• Do formatting, vocabulary, or structural issues (examples: unusual use of punctuation, use of dialect or jargon) affect your navigation of the text?
• Can you identify with the text’s central idea or the information it’s sharing?
• Have you had any experiences like those being described? Can you identify with the story?
• Are you able to identify the surface meaning?
• Do you need to look up any words to do any quick research? If so, does this help you better understand the text?
• What questions do you have about the work?

Critiquing a Text

Burnell et al. [5]  have the following to say about how to critique a text.

When we summarize a text, we capture its main points. When we critique a text, we evaluate it, asking it questions.

Most of us tend to think of criticism as being negative or mean, but in the academic sense, doing a critique is not the least bit negative. Rather, it’s a constructive way to better explore and understand the material we’re working with.

When we critique, our own opinions and ideas become part of our textual analysis. We question the text, we argue with it, and we delve into it for deeper meanings.

Here are some ideas to consider when critiquing a text:

• How did you respond to the piece? Did you like it? Did it appeal to you? Could you identify with it?
• Do you agree with the main ideas in the text?
• Did you find any errors in reasoning? Any gaps in the discussion?
• Did the organization make sense?
• Was evidence used correctly, without manipulation? Has the writer used appropriate sources for support?
• Is the author objective? Biased? Reasonable? (Note that the author might just as easily be subjective, unbiased, and unreasonable! Every type of writing and tone can be used for a specific purpose. By identifying these techniques and considering  why the author is using them, you begin to understand more about the text.)
• Has the author left anything out? If yes, was this accidental? Intentional?
• Are the text’s tone and language text appropriate?
• Are all of the author’s statements clear? Is anything confusing?
• What worked well in the text? What was lacking or failed completely?

These are only a few ideas relating to critique, but they’ll get you started. When you critique, try working with these statements, offering explanations to support your ideas. Bring in content from the text (textual evidence) to support your ideas.

• Richardson, G. (2019, December 2). Week 5: Main ideas. Developing Reading Skills. MHCC Library Press. https://mhcc.pressbooks.pub/rd90-115/chapter/week5/ CC-BY 4.0 ↵
• Smrt English. (2012, November 15). How to write a summary [Video]. YouTube. https://www.youtube.com/watch?v=eGWO1ldEhtQ . ↵
• Burnell, C., Wood, J., Babin, M., Pesznecker, S., & Rosevear, N. (n.d.). Summarizing a text. The word on college reading and writing. Open Oregon Educational Resources. https://ecampusontario.pressbooks.pub/wordcollegerw/chapter/summarizing-a-text/   CC BY-NC 4.0 ↵
• Burnell, C., Wood, J., Babin, M., Pesznecker, S., & Rosevear, N. (n.d.). Explore the ways the text affects you. The word on college reading and writing.  Open Oregon Educational Resources. https://ecampusontario.pressbooks.pub/wordcollegerw/chapter/explore-the-ways-the-text-affects-you/   CC BY-NC 4.0 ↵
• Burnell, C., wood, J., Babin, M., Pesznecker, S., & Rosevear, N. (n.d.). Critiquing a text. The word on college reading and writing. . Open Oregon Educational Resources. https://ecampusontario.pressbooks.pub/wordcollegerw/chapter/critiquing-a-text/ CC BY-NC 4.0 ↵

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6 Chapter 4 Supporting Students’ Critical Thinking

Critical thinking is fundamental to learner achievement in all subject areas. There are a great number and variety of standards that students are expected to meet using critical thinking skills such as analyzing, evaluating, and assessing; this is because critical thinking is essential for students to lead productive lives. Almost 30 years ago, Facione (1990) argued that critical thinking is also necessary for societies to hang together, stating, “Being a free, responsible person means being able to make rational, unconstrained choices. A person who cannot think critically, cannot make rational choices. And, those without the ability to make rational choices should not be allowed to run free, for being irresponsible, they could easily be a danger to themselves and to the rest of us” (p. 13). That sentiment is even more applicable in the age of the Internet and world unrest as humans prepare for an unknown future.

OVERVIEW OF CRITICAL THINKING AND TECHNOLOGY IN K–12 CLASSROOMS

In order to implement technology use with a learning focus, teachers need to understand critical thinking before attempting to support it with technology.

What Is Critical Thinking?

Critical thinking skills refer to abilities to be open-minded, mindful, and analytical, and to evaluate, question, reason, hypothesize, interpret, explain, and draw conclusions (Ennis, 2012). A simple way to define critical thinking is the ability to make good decisions and to clearly explain the foundation for those decisions. When using technology, being able to think critically allows one to:

Judge the credibility of sources.

Identify conclusions, reasons, and assumptions.

Judge the quality of an argument, including the acceptability of its reasons, assumptions, and evidence.

Develop and defend a position on an issue.

Ask appropriate clarifying questions.

Plan experiments and judge experimental designs.

Define terms in a way appropriate for the context.

Be open-minded.

Try to be well-informed.

Draw conclusions when warranted, but with caution. (Ennis, 1993, p. 180)

To some extent all humans, even very young children, continually think critically to analyze their world and to make sense of it. However, most people’s skills are not as well developed as they could or should be, and there is a clear link between critical thinking and student success. Scholars agree, however, that schools are not the most productive learning environments for critical thinking, and that schools need to take a stronger focus on critical thinking.

Critical thinking is part of a group of cognitive abilities and personal characteristics called higher order thinking skills (HOTS). These skills also include creative thinking (chapter 5) and problem solving (chapter 6). This list of cognitive skills is based on Bloom’s well-known Taxonomy of Educational Goals (Bloom, 1956). Bloom’s first three competencies—knowledge, comprehension, and application—are generally equated with the acquisition of declarative knowledge (discussed in chapter 2). The second three competencies—analysis, synthesis, and evaluation—are generally considered critical thinking or higher order skills. Figure 4.1 presents an example of critical thinking skills from Bloom’s taxonomy and the types of technology-enhanced tasks that might support them. Forty-five years after Bloom’s Taxonomy was published, Anderson and Krathwohl (2001) revised it to add a “metacognitive knowledge” category and to make it easier for teachers to design instruction that requires critical thinking. Excellent resources for using the revised taxonomy are available from teachthought at http://www.teachthought.com/pedagogy/50-resources-for-teaching-with-blooms-taxonomy/ and many other sources on the Web, including Pinterest (e.g., the poster at

https://www.pinterest.com/pin/287597126178595755/).

Source: From Benjamin S. Bloom, Taxonomy of educational objectives. Published by Allyn & Bacon, Boston, MA. Copyright © 1984 by Pearson Education. Adapted by permission of the publisher.

Critical thinking has been central to education since the time of Socrates (469–399 B.C.E.). The focus of the Socratic method is to question students so that they come to justify their arguments; this teaching strategy is still used in many classrooms to foster critical thinking. Edutopia ( https://www.edutopia.org/ ) provides many resources for Socratic/ critical thinking. Critical thinking software can also provide tasks that require critical thinking and prompts to help students understand how to come to effective decisions. Regardless of the tool that students use to support their critical thinking, it is important to note the crucial role of critical thinking skills both in school and out. In fact, since Socrates, philosophers throughout history such as Plato, Francis Bacon, Rene Descartes, William Graham Sumner, and John Dewey have emphasized the need for students to think critically about their world.

More specifically, scholars note that critical thinking is one foundation for learning, in part because all of the learning skills are interdependent and, as Paul (2004a) points out, “everything essential to education supports everything else essential to education” (p. 3). For example, as students consider how to decide whether they can believe everything they read on the Internet, they use a variety of skills to

Understand basic content.

Communicate among themselves and with others.

Think creatively about resources.

Assess the veracity of the information they come in contact with.

Produce a well-supported conclusion.

In other words, they must think critically throughout the process as they develop other learning skills.

It is also clear that critical thinking is used in all areas of life as we learn and experience. Making a good decision about whether to buy a laptop or an iPod, and then which model, requires research, assessment, evaluation, and careful planning, just as deciding what to eat for dinner or how to spend free time does.

Although there may be discipline-specific skills, general critical thinking skills may apply across disciplines and content areas (Ennis, 2011a; McPeck, 1992). For example, Stupple, et al (2017) note that critical thinking skills test scores correlate positively with college GPA. Although this is not a causal relationship (in other words, the research does not show that effective critical thinking causes a high GPA), there appears to be something about students who can think critically that helps them succeed in college. In addition, the processes that students use to think critically appear to transfer or assist not only in the reading process but in general decision- making. However, experts disagree to what extent this happens. Some researchers believe that much critical thinking is subject- or genre-specific. Nonetheless, all agree that it is crucial to help students hone their critical thinking abilities, and many believe that technology can help by providing support in ways outlined throughout this chapter.

In addition to the lessons presented in this chapter based on these ideas, other chapters of this book present ideas and activities that involve critical thinking either implicitly or explicitly. As you read through the text, see if you can find those examples.

Critical Thinking and Media Literacy

Critical thinking, as defined in the previous section, is especially important because media, particularly television and computers, is increasingly prevalent in the lives of K–12 students. Students have always needed to have general information literacy, or “knowing when and why you need information, where to find it, and how to evaluate, use, and communicate it in an ethical manner” (CILIP, 2007). However, students who are faced with a bombardment of images, sounds, and text need to go beyond information literacy to interpret and assess (in other words, think critically about) information in new ways. In other words, they must be media literate.

In general, media literacy means that students are able not only to comprehend what they read, hear, and see but also to evaluate and make good decisions about what media presents. There are many variations on how to support students in becoming media literate. For example, the Center for Media Literacy, the world’s largest distributor of media education materials, recommends activities such as tracing racial images in the media throughout history, exploring how maps are constructed (and asking questions like “Why does ‘north’ mean ‘up’?”), and challenging gender stereotypes in TV comedies. These activities are crucial because learners of all ages watch TV, and even kindergartners use the computer and may have access to the Internet. Much of what learners read, see, and hear they believe verbatim and share as truth with others, particularly if someone they see as an authority posts it. This occurs whether the message is intended as fact or not. To become more media literate, teachers and students need to learn and practice critical thinking skills that are directed at the ideologies, purveyors, and purposes behind their data sources. Most important, students must use the Internet responsibly and with the necessary skepticism; in particular, this includes investigative skills and the ability to judge the validity of information from Web sites.

There are many resources to help teachers and students to become media literate. One of the best is the Center for Media Literacy’s (CML) free K-12 resources (available from http://www.medialit.org/). The site presents a clear, theory-based definition and outstanding lessons based on the five core concepts of media literacy. The lessons and handouts focus on students learning to ask these five “key questions”:

Who created this message?

What creative techniques are used to attract my attention?

How might different people understand the message differently from me?

What values, lifestyles, and points of view are represented in, or omitted from, this message?

Why is this message being sent?

Another focus of the CML is the “Essential Questions for Teachers” that teachers should ask themselves:

Am I trying to tell the students what the message is? Or am I giving them the skills to determine what THEY think the message(s) might be?

Have I let students know that I am open to accepting their interpretation, as long as it is well substantiated, or have I conveyed the message that my interpretation is the only correct view?

At the end of the lesson, are students likely to be more analytical? Or more cynical?

During media literacy lessons, students use technology to construct their own critically evaluated multimedia messages. This site is an excellent resource both for teachers just beginning to explore media literacy and for those looking for additional pedagogically sound ideas and activities.

Another outstanding source of lessons, articles, and activities for K–12 is the Critical Evaluation section of Kathy Schrock’s Web site at http://www.schrockguide.net/critical-evaluation.html), as is the useful medialiteracy.com Web site (see Figure 4.2).

Characteristics of Effective Critical Thinking Tasks

There are many ways to help students become media-literate critical thinkers. In general, effective critical thinking tasks:

Take place in an environment that supports objection, questioning, and reasoning.

Address issues that are ill-structured and may not have a simple answer.

Do not involve rote learning.

Provide alternatives in product and solution.

Allow students to make decisions and see consequences.

Are supported by tools and resources from many perspectives.

Help students examine their reasoning processes.

Teachers who want to promote critical thinking can employ the terms in Figure 4.3 in their student objectives and assignments. For example, if the objective is for students to analyze their use of technology, the teacher can ask students to contrast, categorize, and/or compare. If the objective is for students to evaluate technology use in schools, the teacher might ask students to defend, justify, or predict. For more information and tools for secondary school, see the resources provided by the Critical Thinking Community at http://www.criticalthinking.org/pages/high-school-teachers/807 .

Student benefits of critical thinking

It should be clear from the previous discussion that good critical thinking skills affect students in many ways. Additional benefits that accrue to good critical thinkers include:

Better grades and/or performance on high stakes tests (Watanabe, 2015)

Independence

Good decision making

The ability to effect social change

Becoming better readers, writers, speakers, and listeners

The ability to address bias and prejudice

Willingness to stick with a task

Because critical thinking skills can be learned, all students, including those with different language and physical abilities and capabilities, have the potential to reap these benefits.

THE CRITICAL THINKING PROCESS

Although all students can benefit from critical thinking, no two people use the exact same skills or processes to think critically. However, teachers can present students with a general set of steps synthesized from the research literature that can serve as a basis for critical thinking. These steps are:

Review your content understanding/clarify the problem. Compile everything you know about the topic that you are working on. Try to include even small details. Figure out what other content knowledge you need to know to help examine all sides of the question and how to get that information.

Analyze the material. Organize the material into categories or groupings by finding relationships among the pieces. Decide which aspects are the most important. Weigh all sides.

Synthesize your answers about the material. Decide why it is significant, how it can be applied, what the implications are, which ideas do not seem to fit well into the explanation that you decided on.

Evaluate your decision-making process.

Students can use this process as a foundation for discovering what works best for them to come to rational decisions. As outlined in the following section, teachers play a central role in sup- porting students in this process.

Teachers and Critical Thinking

To support the critical thinking process with technology, teachers must first understand their roles and the challenges of working with learners who are developing their critical thinking skills. These issues are discussed here.

The teacher’s role in critical thinking opportunities

Experts see the teacher’s role in critical thinking as being a model, helping students to see the need for and excitement of being able to think critically. In modeling critical thinking, teachers should:

Overtly and explicitly explain what they do and why.

Encourage students to think for themselves.

Be willing to admit and correct their own mistakes.

Be sensitive to students’ feelings, abilities, and goals and to what motivates them.

Allow students to participate in democratic processes in the classroom.

By modeling self-questioning and other strategies, teachers can help students to understand what critical thinkers do.

Teachers can also decide to teach critical thinking skills directly and/or through content— both are appropriate in specific contexts. Techniques that teachers can use to support critical thinking are presented in Figure 4.4. Additional ideas are listed in the Guidelines section of this chapter.

As Weiler (2004) notes, often students who are in a dualistic stage of intellectual development, in which they see everything as either right or wrong, will need a gradual introduction to the idea that not everything is so clear-cut. Rather than direct teaching of critical thinking, students can be led to understand this idea by encountering inexplicable or not easily answerable examples over time. For example, teachers addressing the urban myth of alligators in the sewers of New York might ask students to suggest what the sewers of New York might be like, and then to compare that to what they know about alligators’ natural habitats. This might lead to a thoughtful consideration of whether alligators could survive in New York sewers. The teacher’s role in this case is to ask questions to support student movement toward more complex reasoning.

Challenges for teachers

As the process above implies, learning to think critically takes time, and it requires many examples and practice across a variety of contexts. The school library media specialist is an excellent source for resources and ideas for teaching all aspects of critical thinking.

However, teaching students to think critically is not always an easy task, and it may be made more difficult by having students from cultures that do not value or promote displays of critical thinking in children in the same way as schools in the United States do or believe that it is the role of the school to do so. As many scholars point out, critical thinking in itself is probably not culturally biased, but the instruction of critical thinking can be. Teachers need to understand their students’ approaches to reasoning and objection and to teach critical thinking supported by technology in culturally responsive ways (as mentioned in chapter 2) by:

Understanding and exploring what critical thinking means in other cultures

Avoiding overgeneralizing and recognizing salient cultural features of critical thinking during the process, particularly in the tools used

Taking into consideration the strengths and differences of students

GUIDELINES FOR SUPPORTING STUDENT CRITICAL THINKING WITH TECHNOLOGY

As with all the goals outlined in this text, there are many things for teachers to think about when deciding how to support critical thinking. Many of the guidelines in other chapters also apply. The guidelines here are not specific only to critical thinking.

Designing Critical Thinking Opportunities

Guideline #1: Ask the right questions. Research in classrooms shows that teachers ask mostly display questions to discover whether students can repeat the information from the lesson and can explain it in their own words. However, to promote critical thinking and reasoning, students need to think about and answer “essential” questions that help them to meet universal standards for critical thinking. These standards are directly related to analysis, synthesis, and evaluation (and sometimes to application), discussed above as characteristics of effective critical thinking tasks. For example, questions about clarity (Can you give me an example of …? What do you mean by… ?) ask students to apply their learning to their experience, and vice versa. Questions that focus on precision or specificity (Exactly how much… ? On what day and at what time did … ?) ask students to analyze the data more deeply. A question about breadth (How might___ answer this question? What do you think___would say about this issue?) might also challenge students to synthesize.

Whichever set of standards or objectives teachers decide to use, it is important that the teacher support the critical thinking process by providing scaffolds, or structures and reinforcements that help guide learners toward independent critical thinking. Critical thinking does not mean negative thinking, it means voluntary, justified, educated skepticism. Question formats and strategies for creating effective questions are provided by Kentucky Prism at http://www.kyprism.org, and see Cotton (2001) for still-relevant research on questioning and strategies to make it work in classrooms. On the Web, find lists of questions that can lead to critical thinking by conducting a search on the term “critical thinking questions.”

Guideline #2: Use tasks with appropriate levels of challenge. Mihalyi Csikszentmihalyi (1997) and other researchers have found that the relationship between skills that students possess and the challenge that a task presents is important to learning. For example, they discovered that students of high ability were often bored with their lessons and that the balance of challenge and skills could be used to predict students’ attitudes toward their lessons. Their findings indicate that activities should be neither too challenging nor too easy for the student. Teachers can use observation, interview, and other assessments to determine the level of readiness for each student on specific tasks and with different content. Teachers can then use student readiness to change the challenge that students face in a task by:

Changing the way students are grouped

Introducing new technologies

Changing the types of thinking tasks

Varying the questions they ask

Altering expectations of goals that can be met

Differentiation, a strategy for designing instruction that meets diverse students’ needs (dis- cussed in chapter 2), can help teachers to provide tasks with appropriate levels of challenge for students.

Guideline #3: Teach strategies. Supporting critical thinking by modeling and asking questions is useful but not enough for all students. Good critical thinkers use metacognitive skills–in other words, they think about the process of their decision-making. The actual teaching of metacognitive strategies can have an impact on when and if students use them. To help students think about their thinking, teachers can prompt the students to ask themselves:

Did I have enough resources?

Were the resources sufficiently varied and from authorities I can trust?

Did I consider issues fairly?

Do all the data support my decision?

For English language learners (ELLs), this might mean teaching how to formulate and ask questions for clarity and specific information and to use relevant vocabulary words. One way this could hap- pen is to have ELLs create interview questions and interact with an external audience via email. Through the interaction and feedback from their email partners, the students could learn whether their questions were clear and specific and the vocabulary appropriate.

Guideline #4: Encourage curiosity. Why is the grass green? Why do I have to do geometry? Why are we at war? What are clouds made of? How do people choose what they will be when they grow up? Children ask these questions all the time, and these questions can lead to thinking critically about the world. However, in classroom settings they are often ignored, whether due to curricular, time, or other constraints. The Internet as a problem-solving and research tool (chapter 6) can contribute to teachers and learners finding answers together and evaluating those answers. However, if teachers stop learners from being curious, avoid their questions, or answer them unsatisfactorily, teachers can shut down the first step toward critical thinking.

A summary of these guidelines is presented in Figure 4.5.

CRITICAL THINKING TECHNOLOGIES

What Are Critical Thinking Tools?

Critical thinking tools are those that support the critical thinking process. Critical thinking instruction does not require the use of electronic tools. However, many of the tools mentioned throughout this book can be used to support critical thinking, depending on the specific activity. For example, word processing can help students lay out their thoughts before a debate, and concept mapping Web sites and software such as Inspiration (www.inspiration.com) can help students to brainstorm and plan their ideas. Likewise, the Internet can supply information, and databases and spreadsheets can help students organize data for more critical review.

This chapter presents tools that are specifically focused on building critical thinking skills. The following examples are categorized into:

Strategy software—content-free and structured to support critical thinking skills with student-generated content.

Content software—content is predetermined and strategy use is emphasized. Students typically read the software content and work out answers to questions.

Many other tools in these categories exist; those described here are some of the most popular, inexpensive, and useful.

Strategy Software

CMap v.3.8 (IHMC, 2005)

This software is easy to learn and use for third grade and up. The user double-clicks on the screen and inputs text into the shape that appears. Users can change the colors of the graphics and text to show different categories of reasoning such as objections, reasons, and claims. A very useful feature allows users to put text on the connecting lines to show the reasoning behind the connections they made. Figure 4.6 is an example map of the argument for and against alligators in the New York City sewer system. Download this software free from http://cmap.ihmc.us/.

First Step KidSkills (Kid Tools Support System, 2003)

KidSkills is a free software package intended for students ages 7–13. Of the four sections, titled Getting Organized, Learning New Stuff, Doing Homework, and Doing Projects, the last has the greatest focus on critical thinking. This section has five activities: Project Planner, Getting

Information, Big Picture Card, Working Together, and Project Evaluation. Each of the activities focuses on students combining information and printing or saving it in the form of a “card” or page. In the Project Planner exercise, students make a card that lists their question, topics for them to investigate, possible re- sources, and an evaluation of the resources (authority, fact, opinion, or don’t know). There is also a Second Step available, and resources and tips for use are provided on the Kid Tools Web site. Although intended for use with learners with learning disabilities or emotional/ behavioral problems, it is useful for all children and simple enough for students with limited English proficiency to understand and use, particularly because all instructions are presented in text and audio. Some teachers may find it too simple, but its simplicity is also part of its effectiveness.

Additional apps and tools are presented in the Teacher Toolbox for this text.

Content Software

BrainCogs (Fablevision, 2002)

A CD-based strategy program, BrainCogs helps students to learn, reflect on, and use specific strategies across a variety of contexts. The software employs an imaginary rock band, the Rotten Green Peppers, to demonstrate the importance of and techniques for remembering, organizing in- formation, prioritizing, shifting perspectives, and checking for mistakes. Although the focus is more on strategies to help students pass tests, the general strategy knowledge gained can transfer across subjects and tasks because it is not embedded in any specific content area. The software is accompanied by a video, posters, and other resources that function as scaffolds for diverse learners. The exercises, in addition to being entertaining and fun, employ multimedia (sound, text, and graphics) in ways that make the content accessible to English language learners and native English speakers with diverse learning styles. Available through http://www.fablevision.com/.

Mission Critical (San Jose State University)

This Web tool provides information and quizzes on critical thinking. Although intended for college students, the quizzes are simple and well explained and could be used at a number of different grade levels with support from the teacher. The site addresses arguments, persuasion, fallacies, and many other aspects of logic and critical thinking. The site begins at http://missioncritical.royalwebhosting.net/ .

Choices, Choices: Taking Responsibility (Tom Snyder Productions/Scholastic)

Taking Responsibility helps students in grades K–4 work through a five-step critical thinking process:

Understand your situation.

Talk about your options.

Make a choice.

Think about the consequences.

Used on a single computer and facilitated by the teacher, the simulation in this software title provides a scenario in which two students have broken one of the teacher’s possessions; how- ever, no one else saw them. The class acts as the two students in the scenario. Through a series of decisions, the class must decide which actions to take and face the consequences of their decisions. There are 300 different ways that students can get through this software, so the consequences are not always clear- cut until they are presented to students. Figure 4.8 presents the Taking Responsibility goal-setting screen.

The software comes with many resources to help students think critically about the situations and their decisions and to assist the teacher in integrating literature, role-play, and other activities into the lesson. Each step of the simulation is presented in pictures, audio, and text, which helps ELLs and other students to access the information. The Choices, Choices series includes a number of other titles. Tom Snyder Productions/Scholastic also provides a similar Decisions, Decisions series for older students.

Teachers who want to use this type of software should be aware that the choices that students are allowed to make within the software are preset and represent the views of the software author. Teachers and students must understand the limitations and biases of this software to use it in ways that demonstrate true critical thinking.

Other Options

There are a variety of other tool options for teachers and students to support critical thinking. Brainstorming and decision-tree software, strengths/weaknesses/opportunities/threats (SWOT) analysis packages, and Web-based content and question tools are available. For more information on teaching critical thinking and how technology might help, see Schwartz (2016) and the TedEd talk “Rethinking Thinking” by Trevor Maber on ed.ted.com.

One recent trend in critical thinking is the development of school- and classroom-based makerspaces. A makerspace is a physical space that contains any array of tools and resources where students can dream, imagine, solve problems, invent, and a lot more. Makerspaces support discovery, creativity, and many of the other goals outlined in this book. For more information, see “7 Things You Should Know about Makerspaces” at https://net.educause.edu/ir/library/pdf/eli7095.pdf and learn more about the maker movement at http://www.makerspaceforeducation.com/.

Additional apps and Web sites can be found in the Teacher Toolbox for this text. Whichever tools teachers decide to use, they need to remember that the tool should not create a barrier to students reaching the goal of effective critical thinking.

TECHNOLOGY-SUPPORTED LEARNING ACTIVITIES: CRITICAL THINKING

As noted previously, instruction in critical thinking can be direct through the use of explicit instruction or indirect through modeling, describing, and explaining. The goal is to help learners understand clearly why they need to think critically and to give them feedback on how they do and how they can improve. Unfortunately, few software packages and Web sites, let alone textbooks, require critical thinking skills of students. Software that does support critical thinking often requires supplementing to help students understand and use them. Teachers can supplement these resources and facilitate critical thinking during activities by developing external documents. An external document is a kind of worksheet that can involve students in, for example, taking notes, outlining, highlighting, picking out critical information, summarizing, or practicing any of the skills that support critical thinking. An external document can also enhance students’ access to critical thinking software or Web sites by providing language or content help. All kinds of external documents exist across the Internet in lesson plan databases, teacher’s guides, and other educational sites to be shared and added to.

The goal for an external document is to overcome the weaknesses of the software. An external document should:

Be based on current knowledge in the content area.

Enhance interpersonal interaction.

Provide higher order thinking tasks.

Provide different ways for students to understand and respond.

Enhance the learning that the software facilitates.

Be an integral part of the activity.

Make the information more authentic to students.

Expose students to information in a different form.

Give students more control.

Teachers can use the terms from Figure 4.3 to help plan and create external documents. Like any other tool, external documents need to be clearly explained and modeled before students use them. To make documents more accessible to students with learning challenges and/or diverse learning styles, teachers can:

Print instructions in a color different from the rest of the text.

Provide oral instructions along with the written document.

Provide visual aids when possible.

Provide slightly different documents for students at different reading or content levels.

Use large, clear print.

In this section, technology-enhanced lessons in critical thinking are supplemented by external documents to demonstrate how teachers can make do with the tools they have and also make the tools more effective. Each example provides an overview of the lesson procedure and the tools used and a sample external document that supports student critical thinking during the lesson. Specific grade levels are not mentioned, because the focus is on the principles behind the activities, and the tasks can be easily adapted for a variety of students. As you read, think about how each external document supports critical thinking and what additional documents might encourage student critical thinking in other ways.

Science Example: Shooting for the Moon

The class reads Space Day—Inventors Wanted at the about.com site ( http://childparenting.about.com/ ). The site gives students guidelines for designing and creating an item for astronauts to take into space.

The class uses a planning tool to decide how to address this task and to make a timeline for completion.

Students make teams and brainstorm their ideas in a word processing or graphics program. They list their re- sources and reasons for using each re- source in the external document, a resource handout (Figure 4.9).

After they make a preliminary decision about their invention, they use the Space Day Invention external document handout (Figure 4.10) to analyze their choices.

Students complete a model of their invention, then use the Invention Justification external document (Figure 4.11) to plan the written explanation that will accompany their model.

The simple external documents in this case give students a foundation for thinking, a permanent record of their thinking, and assistance for thinking, speaking, and writing about their invention. The range of documents that can be created to facilitate this activity is large; the documents can also be adapted for different students. For example, documents intended for ELLs can include graphics and vocabulary explanations, and those for students with reading barriers can be set up online and read by an electronic text reader. When students finish their project, they can be asked to review their documents to reflect on their thinking processes.

Social Studies Example: Election Year Politics Debate

The class reads a variety of Internet sources, popular press, and opinion pieces to gather information to complete the Election Year Issues chart external document in Figure 4.12.

Students choose the issue they decide is most important according to the criteria given and use the Debate Planning document in Figure 4.13 to organize their position.

During the debate, students keep track of and summarize the arguments on a computer screen using a spreadsheet or other relevant software.

After the debate, students try to come to a consensus using all their documentation for support. The Issues chart helps students to focus on crucial aspects of the topic that they are thinking about. This type of grid can be used for almost any topic area. The debate planning handout is also a multiuse external document that can be employed in debate planning or discussion throughout the year in almost any subject area.

English Example: Critical Reading

After appropriate introduction by the teacher, students in groups of three read one of the three stories about the death of Malcolm X from Dan Kurland’s Web site (http://criticalreading.com/malcolm.htm).

Student groups complete the Reading Analysis external document (Figure 4.14), which they would have used previously for other readings.

Student groups reconfigure, with one student from each of the initial three reading groups in a new group (known as jigsaw learning). In their new groups students compare the reports and understandings from their first group and summarize their analysis of all the readings.

Students go online to discover other discussions and reports on the death of Malcolm X and to make conclusions about the events and the sources that reported them.

Instr u ctions: Read the selection carefully. With your g roup, write answers to the questions. Use examples from the readin g and other evidence to support your answers.

• To relate facts
• To persuade with appeal to reason or emotions
• To entertain (to affect people’s emotions)
• Explain why you think this is the purpose. Use examples from the selection to support your idea.
• Why did the author write this selection?
• Where and by whom was it published?
• List all the main ideas in this selection.
• List any words that you do not know, and add a definition in your own words.
• Write a short summary of the selection. Limit your summary to five sentences.
• Decide if the information in this selection is well written. What makes you think so?
• What are the selection ’ s stren g ths and weaknesses?
• What is your g roup ’ s opinion about this selection? Does it seem fair, lo g ical, true, effective, somethin g else? Explain clearly why you think so and g ive evidence to support your ideas.

FIGURE 4.14 Reading Analysis WWorksheet

Reading is not only covered in English or language arts areas. Teachers in all subject areas need to help students evaluate sources and become more media literate, and external documents that help them to do so can be used across the curriculum.

Math Example: Write to Dr. Math

Throughout the semester, students choose a math problem that is giving them trouble. They complete the Dr. Math Questions worksheet (Figure 4.15) about that problem. The teacher helps students post their questions to the Write to Dr. Math Web site (http://mathforum.org/dr.math/).

Students use the answer from the experts to analyze their approach to the problem and to answer a similar problem.

Presenting a problem and their thought processes to an external audience helps students clarify, detail, and explain—supporting the development of critical thinking.

Art Example: Pictures in the Media

Students look at the use of art in advertisements on the Web. Students choose an advertisement about a familiar product.

Examining the art that accompanies the ad, students complete the Advertising Art document (Figure 4.16).

Students choose or create new art for the advertisement based on their answers.

External documents help make the technology resources more useful, more focused, and more thought-provoking. The combination of technology tools and external documents can lead to many opportunities for critical thinking

Instr u ctions: Look at the art in your advertisement. Carefully consider your answers to these questions.

Answer as completely as possible.

1. Describe the art objectively, including color selection, line direction, use of shadow and light, and other features. In other words, try not to use any opinion in your description.

2. In words, what do you think this picture is saying? Why do you think so? Give evidence and

examples as support.

3. Is it an accurate representation of the product? How is it related to the product? Explain your

answers clearly.

4. How do you think someone else would respond to the art in this ad? Think of several different

people you know and project what effect the art might have on them.

5. What is the purpose of this art? What do the publishers of this ad hope to accomplish? Why do

you think so?

6. What are the consequences of not knowing the influences that art can have on people?

FIGURE 4.16 Advertising Art

ASSESSING CRITICAL THINKING WITH AND THROUGH TECHNOLOGY

Evaluating student work on external documents like those described in the previous section is one way to evaluate student progress in critical thinking. Student use of strategy and other critical thinking software tools can also aid in assessment. Many of the assessment means and tools mentioned throughout this text can assist teachers in evaluating the process and outcomes of student critical thinking. Ennis (2011b) provides several purposes for assessing critical thinking:

Diagnosing students’ level of critical thinking

Giving students feedback about their skills

Motivating students to improve their skills

Informing teachers about the success of their instruction.

Although critical thinking tests do exist, Ennis recommends that teachers make their own tests because the teacher-made tests will be a better fit for students and can be more open-ended (and thereby more comprehensive). He makes a logical argument that the use of multiple-choice tests that ask students for a brief written defense of their answers might be effective and efficient.

Which is more believable? Circle one:

• The sewer worker investigates the alligators and says, “I’ve never seen one, so they don’t exist.”
• The mayor says, “Of course there are no alligators. I would know if there were.”
• A and B are equally believable.

EXPLAIN YOUR REASON:

In addition, both content and thinking skills can be tested simultaneously. For example, the question below requires students not only to answer the question but to explain their logic.

This format gives students who have credible interpretations for their answers credit for answering based on evidence. It can also eliminate some of the cultural and language differences that might otherwise interfere with a good assessment. For example, although the student might mark the multiple-choice part of the question incorrectly due to language misunderstandings or a slip of the hand, the teacher will be able to tell from the written explanation whether the student understands the question and is able to use thinking skills to think through and defend the answer. Students can complete this kind of test on the computer, avoiding problems with handwriting legibility.

Technology can aid teachers in developing tests of this sort. Test-making software abounds both from commercial publishers and nonprofit Web sites; however, few of the multiple-choice test creators also allow for short answers. An effective choice is to use a word processor to develop the test. The test can then be easily revised for future administrations. Teachers who have technical support and/or are proficient in Web page creation can also use an html editor to create a Web-based test.

Measuring critical thinking skills is not easy, but observation over time, a criterion-referenced task, and/or talk-alouds by students during activities are some ways to do so. Self-assessments can also encourage student reflection on how well they have done. Teachers can use a personal digital assistant (PDA) such as a cell phone or iPad to quickly note and store observations and, if necessary, later transfer the notes into a desktop computer for editing and sharing. Most important is to assess many situations using different methods to get the best idea of which critical-thinking skills students understand and to what degree they use them.

FROM THE CLASSROOM

Thinking Skills

There are many activities young children need to be involved in before learning the ins and outs of working a computer. A good book on this topic is Failure to Connect: How Computers Affect Our Children’s Minds and What We Can Do About It, by Jane M. Healy. All that said, computers can be extremely motivating and engaging. They can enhance our students’ use of collaborative skills and problem-solving skills. These things are very powerful in helping people learn. So while the activities you are thinking of using don’t directly match up to whatever test your students need to take, there are many computer activities that will involve many higher level thinking skills that will help our students learn, not only for THE TEST, but for life in general. (Susan, fifth-grade teacher)

Media Literacy

Learning to recognize bias in any form of media is important, especially on the Internet where anyone can publish. When are students developmentally ready to recognize bias? This is a tough question and will vary for individual students. I think that [the] use of preselected Web sites for fifth and sixth graders is a logical step. This is a good age to point out why you, as the teacher, have selected certain sites for their validity and reliability. This can be contrasted with sites that don’t meet the criteria. (Sally, fifth- and sixth-grade teacher)

Critical Thinking and Word Processing

[An article I read said that] one computer tool [that encourages students to think critically] is the word processor, because as students type, typographical, grammar or misspelled words are highlighted. Students should try to correct it themselves before looking at the suggestions by the computer. . . . this helps students become aware of their mistakes and make a conscious effort to avoid them in the future . . . I think that a conscious effort to avoid mistakes is probably going to take more than just seeing it highlighted as wrong on the computer. I think that some direct instruction or work related to those mistakes might be necessary to really help students critically think about what they did and why it wasn’t right . . . because in my experience, the computer’s tips aren’t always all that helpful. Sometimes I even wonder if spell check helps me to be a critical thinker or a carefree writer who is reliant on the computer to make corrections for me. I’m certainly not dedicated enough to try and correct my mistakes before doing a spelling and grammar check. Can we expect our students to do this? (Jennie, first-grade teacher)

Critical Thinking and the Internet

I appreciate the fact that using the Internet can promote critical thinking because the

students move from being passive learners to participants and collaborators in the creation of knowledge and meaning (Berge & Collins, 1995). The technology is empowering for students. . . They seem to feel more control over what they are able to learn and this seems to be motivating!

I wish I could figure out how to transfer that feeling to activities that are not suited for technology! (April, sixth-grade teacher)

CHAPTER REVIEW

Define critical thinking.

There are many different lists of the specific components of critical thinking, but in general experts agree that critical thinking is the process of providing clear, effective support for decisions.

Understand the role of critical thinking in meeting other learning goals such as creativity and production.

Teachers cannot teach their students all the content that they will use in their lives. They can, however, help them to become aware of and develop tools to deal with the decisions they will have to make in school and after. Learning to think critically will help students to become better communicators, problem solvers, producers, and creators and to use information wisely.

Discuss guidelines for using technology to encourage student critical thinking. Techniques such as asking the right questions, using tasks with appropriate challenges, teaching thinking strategies, and encouraging curiosity facilitate more than critical thinking; they are good pedagogy across subjects and activities. Teachers do not need to search for tools to support critical thinking. There are plenty of free tools on the Web, and critical thinking can be supported by common tools such as word processors.

Analyze technologies that can be used to support critical thinking.

People do not often think of a word processor or spreadsheet as a critical-thinking tool, but when their use is focused on aspects of thinking, they can certainly support the process. Many electronic tools can be used to support critical thinking, but teachers must ensure that the tools do not create a barrier to students reaching the goal of effective critical thinking.

Create effective technology-enhanced tasks to support critical thinking.

Any task can have a critical thinking component if it is built into the task. Understanding how to promote critical thinking and doing so with external documents can turn ordinary technology-enhanced tasks into extraordinary student successes.

Employ technology to assess student critical thinking.

Multiple-choice tests in which students are asked to explain their reasons for their answers seem to be a logical and effective way to test not only content but thinking processes. How- ever, this is only one way to assess critical thinking. Teachers need to employ observation, student self-reflection, and other assessments over time to gain a clear understanding of what students can do and how they can improve. Technology can help teachers prepare for and perform assessments

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Introduction

“Information is just bits of data. Knowledge is putting them together. Wisdom is transcending them.”  —Ram Dass

“Most university students are intellectually timid … they are “good at absorbing information but slow to question the ideas they study.”  — R.S . Hansen

A good place to begin to understand what is meant by critical thinking, reading, and writing is to consider how college work differs from other kinds of schoolwork you may have done.

First, think about the reading and writing you did in elementary and secondary school. Usually, elementary school children learn how to decode and write letters or characters; they might memorize grammar rules, learn basic history, and begin basic mathematics. In general, they develop a foundation for the higher order skills they will learn later. Does this sound familiar? You may have a non-traditional or different educational experience, but it is likely you went through similar stages.

As children progress to middle school, high school, and college, their cognitive ability grows more complex, as you can see in the chart below:

(Source:  Hansen, R.S. (n.d.).  Ways in which college is different from high school.  My CollegeSuccessStory.com .)

These cognitive phases were mapped out by American educational psychologist, Benjamin Bloom, who created a system of verbs for classifying and measuring observable actions and help us understand cognitive activity in the brain at various stages of schooling. In other words, these are the verbs that a student must do to demonstrate learning. Below is one graphic representation of Bloom’s taxonomy: The most sophisticated of these skills are the top three. They involve more critical thinking and a more advanced stage of learning than those below. While the top three skills are most associated with college-work, you will likely use all of these skills in your university assignments.

An analysis is not a summary. Summaries involve reporting concisely what an author has written. You do not include your own opinion or use judgmental vocabulary in a summary; you only include the opinions or judgments that come from the author or a source. When you analyze something, you do much more than summarize information or report an author’s opinions. Analysis means using your own views, perspectives, knowledge, or experiences.

Analysis can be a straightforward examination of each part, like an auto mechanic checking a car engine; however,  in academic scholarship, it means bringing in your own perspective, opinions, observations, and evaluation .

We might analyze an author’s argument or data to see if it is strong; we might choose an element of a poem or literary work  to  study closely for significant elements like style, historical period, symbolism, rhyme and so forth.  In the field of Engineering, one might analyze a design or code for ways to  improve it.

Your purpose might be to make an argument, comparison, or connection, or offer an interpretation, reflection or evaluation. you might reach a different conclusion than the author of a study.  you might report strengths or weaknesses, causes or effects, effectiveness, significance, or make an original connection.  as you can see, analysis is a creative act..

Critical Thinking, Reading, and Writing ultimately help to structure your thinking. This means, you know how to read for different purposes, and articulate and defend your views using support or evidence. These skills will enable you to join the wider academic community of knowledge-building, expansion, and credibility.

Asking Questions

Academic analysis begins with asking good questions about what you have seen or read. Learning to question respectfully everything you encounter. This practice can strengthen your critical thinking ability and skill at examining complex issues because it involves reflecting on what you’ve seen or read and evaluating its usefulness or significance. Furthermore, it helps you question the reliability of the flow of information to which you are exposed in media.

This practice will then lead to the ability to “read between the lines” when you hear, see, or read information. This enables you to make connections or find faults in logic. Reading between the lines means making inferences, catching symbolism, or seeing an indication.

Learn more about  critical thinking, critical reading, and critical writing in the chapters to come.

Critical Reading, Writing, and Thinking Copyright © 2022 by Zhenjie Weng, Josh Burlile, Karen Macbeth is licensed under a Creative Commons Attribution 4.0 International License , except where otherwise noted.

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6.5: Introduction to Thinking and Intelligence

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Why is it so difficult to break habits—like reaching for your ringing phone even when you shouldn’t, such as when you’re driving? How does a person who has never seen or touched snow in real life develop an understanding of the concept of snow? How do young children acquire the ability to learn language with no formal instruction? Psychologists who study thinking explore questions like these.

Cognitive psychologists also study intelligence. What is intelligence, and how does it vary from person to person? Are “street smarts” a kind of intelligence, and if so, how do they relate to other types of intelligence? What does an IQ test really measure? These questions and more will be explored in this chapter as you study thinking and intelligence.

In other chapters, we discussed the cognitive processes of perception, learning, and memory. In this chapter, we will focus on high-level cognitive processes. As a part of this discussion, we will consider thinking and briefly explore the development and use of language. We will also discuss problem solving and creativity before ending with a discussion of how intelligence is measured and how our biology and environments interact to affect intelligence. After finishing this chapter, you will have a greater appreciation of the higher-level cognitive processes that contribute to our distinctiveness as a species.

What Is Cognition?

Learning outcomes.

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

• Describe cognition
• Distinguish concepts and prototypes
• Explain the difference between natural and artificial concepts

Imagine all of your thoughts as if they were physical entities, swirling rapidly inside your mind. How is it possible that the brain is able to move from one thought to the next in an organized, orderly fashion? The brain is endlessly perceiving, processing, planning, organizing, and remembering—it is always active. Yet, you don’t notice most of your brain’s activity as you move throughout your daily routine. This is only one facet of the complex processes involved in cognition. Simply put, cognition is thinking, and it encompasses the processes associated with perception, knowledge, problem solving, judgment, language, and memory. Scientists who study cognition are searching for ways to understand how we integrate, organize, and utilize our conscious cognitive experiences without being aware of all of the unconscious work that our brains are doing (for example, Kahneman, 2011).

Upon waking each morning, you begin thinking—contemplating the tasks that you must complete that day. In what order should you run your errands? Should you go to the bank, the cleaners, or the grocery store first? Can you get these things done before you head to class or will they need to wait until school is done? These thoughts are one example of cognition at work. Exceptionally complex, cognition is an essential feature of human consciousness, yet not all aspects of cognition are consciously experienced.

Cognitive psychology is the field of psychology dedicated to examining how people think. It attempts to explain how and why we think the way we do by studying the interactions among human thinking, emotion, creativity, language, and problem solving, in addition to other cognitive processes. Cognitive psychologists strive to determine and measure different types of intelligence, why some people are better at problem solving than others, and how emotional intelligence affects success in the workplace, among countless other topics. They also sometimes focus on how we organize thoughts and information gathered from our environments into meaningful categories of thought, which will be discussed later.

CONCEPTS AND PROTOTYPES

The human nervous system is capable of handling endless streams of information. The senses serve as the interface between the mind and the external environment, receiving stimuli and translating it into nervous impulses that are transmitted to the brain. The brain then processes this information and uses the relevant pieces to create thoughts, which can then be expressed through language or stored in memory for future use. To make this process more complex, the brain does not gather information from external environments only. When thoughts are formed, the brain also pulls information from emotions and memories ( Figure ). Emotion and memory are powerful influences on both our thoughts and behaviors.

In order to organize this staggering amount of information, the brain has developed a file cabinet of sorts in the mind. The different files stored in the file cabinet are called concepts. Concepts are categories or groupings of linguistic information, images, ideas, or memories, such as life experiences. Concepts are, in many ways, big ideas that are generated by observing details, and categorizing and combining these details into cognitive structures. You use concepts to see the relationships among the different elements of your experiences and to keep the information in your mind organized and accessible.

Concepts are informed by our semantic memory (you learned about this concept when you studied memory) and are present in every aspect of our lives; however, one of the easiest places to notice concepts is inside a classroom, where they are discussed explicitly. When you study United States history, for example, you learn about more than just individual events that have happened in America’s past. You absorb a large quantity of information by listening to and participating in discussions, examining maps, and reading first-hand accounts of people’s lives. Your brain analyzes these details and develops an overall understanding of American history. In the process, your brain gathers details that inform and refine your understanding of related concepts like democracy, power, and freedom.

Concepts can be complex and abstract, like justice, or more concrete, like types of birds. In psychology, for example, Piaget’s stages of development are abstract concepts. Some concepts, like tolerance, are agreed upon by many people, because they have been used in various ways over many years. Other concepts, like the characteristics of your ideal friend or your family’s birthday traditions, are personal and individualized. In this way, concepts touch every aspect of our lives, from our many daily routines to the guiding principles behind the way governments function.

Another technique used by your brain to organize information is the identification of prototypes for the concepts you have developed. A prototype is the best example or representation of a concept. For example, for the category of civil disobedience, your prototype could be Rosa Parks. Her peaceful resistance to segregation on a city bus in Montgomery, Alabama, is a recognizable example of civil disobedience. Or your prototype could be Mohandas Gandhi, sometimes called Mahatma Gandhi (“Mahatma” is an honorific title) ( Figure ).

Mohandas Gandhi served as a nonviolent force for independence for India while simultaneously demanding that Buddhist, Hindu, Muslim, and Christian leaders—both Indian and British—collaborate peacefully. Although he was not always successful in preventing violence around him, his life provides a steadfast example of the civil disobedience prototype (Constitutional Rights Foundation, 2013). Just as concepts can be abstract or concrete, we can make a distinction between concepts that are functions of our direct experience with the world and those that are more artificial in nature.

NATURAL AND ARTIFICIAL CONCEPTS

In psychology, concepts can be divided into two categories, natural and artificial. Natural concepts are created “naturally” through your experiences and can be developed from either direct or indirect experiences. For example, if you live in Essex Junction, Vermont, you have probably had a lot of direct experience with snow. You’ve watched it fall from the sky, you’ve seen lightly falling snow that barely covers the windshield of your car, and you’ve shoveled out 18 inches of fluffy white snow as you’ve thought, “This is perfect for skiing.” You’ve thrown snowballs at your best friend and gone sledding down the steepest hill in town. In short, you know snow. You know what it looks like, smells like, tastes like, and feels like. If, however, you’ve lived your whole life on the island of Saint Vincent in the Caribbean, you may never have actually seen snow, much less tasted, smelled, or touched it. You know snow from the indirect experience of seeing pictures of falling snow—or from watching films that feature snow as part of the setting. Either way, snow is a natural concept because you can construct an understanding of it through direct observations or experiences of snow ( Figure ).

An artificial concept, on the other hand, is a concept that is defined by a specific set of characteristics. Various properties of geometric shapes, like squares and triangles, serve as useful examples of artificial concepts. A triangle always has three angles and three sides. A square always has four equal sides and four right angles. Mathematical formulas, like the equation for area (length × width) are artificial concepts defined by specific sets of characteristics that are always the same. Artificial concepts can enhance the understanding of a topic by building on one another. For example, before learning the concept of “area of a square” (and the formula to find it), you must understand what a square is. Once the concept of “area of a square” is understood, an understanding of area for other geometric shapes can be built upon the original understanding of area. The use of artificial concepts to define an idea is crucial to communicating with others and engaging in complex thought. According to Goldstone and Kersten (2003), concepts act as building blocks and can be connected in countless combinations to create complex thoughts.

A schema is a mental construct consisting of a cluster or collection of related concepts (Bartlett, 1932). There are many different types of schemata, and they all have one thing in common: schemata are a method of organizing information that allows the brain to work more efficiently. When a schema is activated, the brain makes immediate assumptions about the person or object being observed.

There are several types of schemata. A role schema makes assumptions about how individuals in certain roles will behave (Callero, 1994). For example, imagine you meet someone who introduces himself as a firefighter. When this happens, your brain automatically activates the “firefighter schema” and begins making assumptions that this person is brave, selfless, and community-oriented. Despite not knowing this person, already you have unknowingly made judgments about him. Schemata also help you fill in gaps in the information you receive from the world around you. While schemata allow for more efficient information processing, there can be problems with schemata, regardless of whether they are accurate: Perhaps this particular firefighter is not brave, he just works as a firefighter to pay the bills while studying to become a children’s librarian.

An event schema, also known as a cognitive script, is a set of behaviors that can feel like a routine. Think about what you do when you walk into an elevator ( Figure ). First, the doors open and you wait to let exiting passengers leave the elevator car. Then, you step into the elevator and turn around to face the doors, looking for the correct button to push. You never face the back of the elevator, do you? And when you’re riding in a crowded elevator and you can’t face the front, it feels uncomfortable, doesn’t it? Interestingly, event schemata can vary widely among different cultures and countries. For example, while it is quite common for people to greet one another with a handshake in the United States, in Tibet, you greet someone by sticking your tongue out at them, and in Belize, you bump fists (Cairns Regional Council, n.d.)

Because event schemata are automatic, they can be difficult to change. Imagine that you are driving home from work or school. This event schema involves getting in the car, shutting the door, and buckling your seatbelt before putting the key in the ignition. You might perform this script two or three times each day. As you drive home, you hear your phone’s ring tone. Typically, the event schema that occurs when you hear your phone ringing involves locating the phone and answering it or responding to your latest text message. So without thinking, you reach for your phone, which could be in your pocket, in your bag, or on the passenger seat of the car. This powerful event schema is informed by your pattern of behavior and the pleasurable stimulation that a phone call or text message gives your brain. Because it is a schema, it is extremely challenging for us to stop reaching for the phone, even though we know that we endanger our own lives and the lives of others while we do it (Neyfakh, 2013) ( Figure ).

Remember the elevator? It feels almost impossible to walk in and  not  face the door. Our powerful event schema dictates our behavior in the elevator, and it is no different with our phones. Current research suggests that it is the habit, or event schema, of checking our phones in many different situations that makes refraining from checking them while driving especially difficult (Bayer & Campbell, 2012). Because texting and driving has become a dangerous epidemic in recent years, psychologists are looking at ways to help people interrupt the “phone schema” while driving. Event schemata like these are the reason why many habits are difficult to break once they have been acquired. As we continue to examine thinking, keep in mind how powerful the forces of concepts and schemata are to our understanding of the world.

In this section, you were introduced to cognitive psychology, which is the study of cognition, or the brain’s ability to think, perceive, plan, analyze, and remember. Concepts and their corresponding prototypes help us quickly organize our thinking by creating categories into which we can sort new information. We also develop schemata, which are clusters of related concepts. Some schemata involve routines of thought and behavior, and these help us function properly in various situations without having to “think twice” about them. Schemata show up in social situations and routines of daily behavior.

Review Questions

Cognitive psychology is the branch of psychology that focuses on the study of ________.

• human development
• human thinking
• human behavior
• human society

Which of the following is an example of a prototype for the concept of leadership on an athletic team?

• the equipment manager
• the star player
• the head coach
• the scorekeeper

Which of the following is an example of an artificial concept?

• a triangle’s area

An event schema is also known as a cognitive ________.

Critical Thinking Questions

Describe a social schema that you would notice at a sporting event.

Explain why event schemata have so much power over human behavior.

Personal Application Question

Describe a natural concept that you know fully but that would be difficult for someone else to understand and explain why it would be difficult.

[glossary-page] [glossary-term]artificial concept:[/glossary-term] [glossary-definition]concept that is defined by a very specific set of characteristics[/glossary-definition]

[glossary-term]cognition:[/glossary-term] [glossary-definition]thinking, including perception, learning, problem solving, judgment, and memory[/glossary-definition]

[glossary-term]cognitive psychology:[/glossary-term] [glossary-definition]field of psychology dedicated to studying every aspect of how people think[/glossary-definition]

[glossary-term]concept:[/glossary-term] [glossary-definition]category or grouping of linguistic information, objects, ideas, or life experiences[/glossary-definition]

[glossary-term]cognitive script:[/glossary-term] [glossary-definition]set of behaviors that are performed the same way each time; also referred to as an event schema[/glossary-definition]

[glossary-term]event schema:[/glossary-term] [glossary-definition]set of behaviors that are performed the same way each time; also referred to as a cognitive script[/glossary-definition]

[glossary-term]natural concept:[/glossary-term] [glossary-definition]mental groupings that are created “naturally” through your experiences[/glossary-definition]

[glossary-term]prototype:[/glossary-term] [glossary-definition]best representation of a concept[/glossary-definition]

[glossary-term]role schema:[/glossary-term] [glossary-definition]set of expectations that define the behaviors of a person occupying a particular role[/glossary-definition]

[glossary-term]schema:[/glossary-term] [glossary-definition](plural = schemata) mental construct consisting of a cluster or collection of related concepts[/glossary-definition] [/glossary-page]

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1.1: Basic Concepts

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• Jason Southworth & Chris Swoyer
• Fort Hays State & University University of Oklahoma

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In this section, we briefly survey several concepts that will surface repeatedly throughout the textbook. This will give you some idea of what critical reasoning is and what this textbook will involve. The aim here is just to provide some basic orientation, so don’t worry about details now.

Intellectual Responsibility

• Empirical questions
• Inference and argument
• Going beyond the information given
• The importance of the situation or context
• Explanation and understanding
• Emotions and needs
• Quick fixes

We will consider each of these notions briefly (you may find it useful to come back to this list from time to time as you work through later chapters).

In today’s rapidly changing world, much of what you learn in college will become outdated rather quickly. Many of your grandparents, and perhaps even your parents, had just one or two jobs during their adult life. But the swift pace of globalization and technological innovation make it likely that you will have a succession of jobs, perhaps in quite different fields, once you graduate. Hence it is important for you to learn how to learn , and a key part of this is learning how to think critically and carefully about new things.

Adults are responsible for the things they do, and this includes thinking clearly and carefully about things that matter. This is hard work, and no one succeeds at it completely, but it is part of the price of being in charge of your life. In addition to thinking for ourselves, it is important to think well. This means basing our reasoning on how things are , rather than how we wish they were. It means being open to the possibility that we are mistaken, not allowing blind emotion to cloud our thought and putting in that extra bit of energy to try to get to the bottom of things. This doesn’t mean that we should constantly be questioning everything. Life is too short and busy for that. But in many cases, successful action requires planning and thought. It is also desirable to reflect on our most basic beliefs from time to time, and the college years are an ideal time for this. In the end, you may wind up with exactly the same views with which you began. But if you have thought about them carefully, they will be your own views , rather than someone else’s, and you will be able to better support them with reasons.

Good reasoning is said to be cogent. Cogent reasoning is based on evidence, rather than on wishful thinking or rash appeals to emotion. When we evaluate a claim, our first question should be: What are the reasons for thinking it is true? If someone tries to convince you to vote for them, or that abortion is immoral, or that God exists, you should ask: Why? What reasons are there for thinking that this claim is true?

Empirical Questions

Empirical questions are questions about the facts. They are not matters of opinion, and they are not best answered by guessing. They can only be answered by checking to see what the facts are. In the sciences, this may involve complex field studies or experiments, but in everyday life the process is often much easier, just looking is enough. As we will see in various places in the following chapters, answers that seem plausible to us often turn out to be wrong.

Inference and Argument

When we arrive at a new belief based on reasons, we are said to draw an inference . For example, if we learn that 80% of the people in a carefully conducted poll are going to vote for the Republican candidate for Congress, we might infer (or conclude) that the Republican will win. The results of the poll provide a reason to draw this conclusion. If we learn that three of the University of Oklahoma’s starting five are out with the flu, we may infer (or conclude) that they will lose to Missouri. Our knowledge about the two teams, including the information about the ill players, gives us a reason to draw this conclusion.

Such reasoning adds up to an argument . Our reasons are the premises of the argument, and the new belief is the conclusion . For example, the inference about the election involves the following argument:

Premise: 80% of the people surveyed plan to vote Republican

Conclusion: The Republican candidate for Congress will win

In a good argument, the premises justify or support the conclusion; they provide good evidence for it.

An argument is a group of sentences; one conclusion and one or more premises. An inference is something we do when we draw a conclusion from premises. We will study arguments in detail in the next chapter.

If an argument is to be any good, its premises must be relevant to its conclusion. Relevance involves a relationship between statements. So, a premise can be relevant to one claim while being irrelevant to other claims. It is irrelevant if it simply doesn’t bear on the truth or falsity of the conclusion, if it’s independent of it, or if it doesn’t affect it one way or the other.

The premise that there is video evidence of one of the Tsarnaev brothers placing a package at one of the bomb sites is relevant to the conclusion that they were responsible for the Boston Marathon Bombing. By contrast, the fact that three people were killed and 264 injured in the bombing is not relevant to the claim that they are guilty (though once Dzhokhar was convicted it may have been relevant to questions about the appropriate penalty).

One of the major causes of bad reasoning is the use of arguments whose premises are irrelevant to their conclusions. It is very easy to make mistakes about the relevance of one claim to another. This is especially problematic when the premises “look relevant,” even though a more careful examination shows that they aren’t. Later we will also see that in some cases the acquisition of information of marginal relevance can lead us to dismiss information that is highly relevant to the problem at hand.

Going Beyond the Information Given

Often our inferences involve leaps from information we are confident about to a conclusion that is less certain. When a pollster conducts a survey to see how the next presidential election is likely to turn out, they ask a few thousand people how they will vote. They then use this information (about the people in the sample) as a premise and draw a conclusion about what all the voters will do. They have a body of information, what the voters polled say they will do, and then move beyond this to a conclusion about what voters in general will do.

Our inferences frequently take us beyond the information we already have. Figure 1.1.1 provides a visual representation of this. For example, we often use premises about how things were in the past to draw conclusions about the future. Your doctor relies on their past experience when diagnosing your current ailment, and they prescribe a treatment based on what worked best in past cases. An experienced cook knows a lot about what goes into a balanced dish and makes choices at the market that they conclude would go well together.

We also go beyond the information at hand in our personal lives. In the past, people we know have behaved in certain ways, and we frequently conclude that they will behave similarly in the future. Sally has always kept her word, so you believe that if you confide in her she probably won’t tell anyone; Hank, on the other hand, is a different story. Again, in the past Wilbur had bad experiences going out with people he met in bars, so he concludes that this isn’t a good way for him to meet people and looks around for alternatives.

When we draw a conclusion that goes beyond the information we have, there is always a risk that we’ll be wrong. But if we use certain strategies, we can increase the likelihood that we will be right. In some cases, we can use numbers to measure just how likely this will be. This means that in the chapters on probability you will have to manipulate just a few fractions, though nothing more than what you did in Algebra I in high school.

Inferences that go beyond the information that we have are pervasive; indeed, in Chapter 3 we will see that even perception and memory often go beyond the information in much the way that many inferences do. When our inference carries us beyond information, we are sure about, we always run the risk of being wrong, but we will discover some strategies that will reduce this risk.

The Importance of Context

Reasoning, inference, and decision making never occur in a vacuum. We will see over and over again that the context or situation in which we think about things can strongly influence the ways in which we think about them. Indeed, it even affects how we perceive and remember things. Furthermore, our reasoning is sometimes faulty because we underestimate the importance of context. We will see that this is especially true when we are trying to understand the behavior of other people.

Explanation and Understanding

We are constantly trying to make sense of things. We need to explain and understand the world around us. Almost every time we ask why something happened or how something works, we are seeking an explanation.

Explanation reflex: We have a strong need to understand and make sense of the world around us.

Learning about things and understanding how they work is often rewarding in and of itself, and it is vital if we are to deal successfully with the world around us. If we understand how things work, we will be able to make more accurate predictions about their behavior, and this will make it easier for us to influence how situations will turn out. If you understand how an automobile engine works, you will be in a much better position to fix it the next time it breaks down. If you understand basic principles of nutrition, you will be in a better position to lose weight and keep it off.

We are constantly seeking explanations in our daily lives. The computer worked yesterday; everything seems the same today, so what explains the fact that it won’t boot up now? We are particularly concerned to understand the behavior of other people. Why did Bret Kavanaugh lie in his confirmation hearing for the Supreme Court about his past alcohol consumption? Why did the people in the Heaven’s Gate cult so happily die by suicide? What was Ben Affleck thinking when he got that dragon tattooed on his back? Such questions also arise closer to home. “ Why did Sally give Wilbur that look when he said they should go out again; what did she mean by it?” In fact, we often have occasion to wonder why we do some of the things that we do; “ Why in the world did I ever say such an idiotic thing?” We are always looking for reasons, regularities and patterns in the phenomena around us. Much reasoning involves attempts to explain things, and sometimes leads us to see patterns that are not really there, or to accept overly simplified explanations, just to have the feeling that we understand what is going on.

For example, some things really do happen by coincidence. But it can be tempting to seek an explanation for them, for example, to adopt some superstition to account for things that just happened by chance. Again, people who like conspiracy theories want simple, pat explanations for why things are going badly for them. When we later learn what really happened in such cases (like the Watergate cover up), we often find less subtle and intricate conspiracy than we imagined, and more bungling and accident. But a conspiracy would offer such a nice simple explanation of things. So, one goal in later chapters will be to devise good explanations while avoiding bad ones.

We use reasoning to predict what will happen. If we tighten the bolts, the garden gate will probably last for another year. If you tell Sam what you really think about the ghastly color of his new car, he’ll go ballistic. When we make predictions, we use the information that seems relevant to us (e.g., information about Sam and his short temper) and draw an inference about what will happen. We will see that there are common patterns of errors that can arise in this process.

Our beliefs are much more likely to be true if they are based on evidence . It isn’t enough for a scientist to just propose a new theory. The theory must be tested , and it needs to survive stringent tests. We typically test a theory by using it to make a prediction, and we then see if the prediction comes true. If it does, that provides some (though by no means conclusive) support for the theory; if it does not, the theory is in trouble. For example, the germ theory of disease was only accepted once it had been used to make a variety of successful predictions, e.g., once vaccines were shown to be effective.

Science works as well as it does because it is responsive to evidence in this way. And our views in daily life will also be more likely to be true if we test them. We will see, however, that most of us aren’t very good at this.

Testing our ideas is one way of getting feedback . Without feedback telling us how accurate our reasoning has been, we won’t be able to learn from our mistakes. Feedback is often painful; we learn that we didn’t do as well as we had thought or hoped—maybe we didn’t do very well at all. But reasoning, like so much else, involves trial and error, and unless you know what the errors are, you won’t do any better the next time around. So, if we want to improve our ability to reason and make judgments, we must seek feedback.

We often overlook the importance of feedback. For example, people who conduct job interviews may have a good deal of experience. Even so, they typically receive limited feedback on their hiring abilities. Why? Because they do get feedback about the quality of the people that they hire, but they rarely get feedback on the quality of the people they reject.

Emotions and Needs

Emotions are a central part of our lives, and they often play a quite legitimate role in our thinking. Intense emotions, however, can lead to poor reasoning. If we are extremely frightened or extremely angry, we aren’t likely to think very clearly. Less obviously, emotions often provide an incentive to think badly. For example, the desire to avoid unpleasant facts about ourselves or the world can lead to wishful thinking and to various self-serving biases in our thoughts. We cannot be effective thinkers if we won’t face obvious facts, or if we seriously distort them. Good thinking involves reasoning, not rationalization; it is based on what we have good reasons to think is true, not on what we would like to be true. Throughout this textbook, we will see how desires, emotions, and moods can impair clear thinking, and we will discuss ways to minimize their effect.

Quick Fixes

We encounter many difficult problems in today’s world. The rise in terrorism, racism and racial tensions, the growing sense that jobs are not secure, and the increasing pollution of the environment all present huge challenges. On a more personal level, the desire to save a marriage, quit smoking, or make more money also present challenges. In such cases, genuine solutions are likely to require a great deal of time, effort, or money (or, often enough, all three), and in some cases, it isn’t even clear where to begin.

The solutions to problems like these often require us to do things we don’t want to do. Most of us don’t want to spend a lot of our own money to solve the problems of the world, or to adopt a new lifestyle, even though it’s healthier. So, it is not surprising that people who promise us an easier solution—a quick fix—will always find an audience. A quick fix is something that is offered as a fast and easy solution to a complex problem. The human tendency toward wishful thinking is one reason why claims by those who offer a quick fix are often accepted, even when there is little evidence in their favor. We will find that hopes for a quick fix are responsible for a good deal of careless reasoning.

We often try to persuade others to accept our view or position. People in the “persuasion professions” (like advertising, politics, and charity work) do this for a living, but we all do it some of the time. You might want to convince someone to go out with you, or to marry you, or to give you a divorce. There are many different (and often subtle) techniques for persuading people. Some involve offering them reasons; others rely on manipulations. We have noted that people prefer having bad reasons to no reasons, and so manipulation often works best if it is disguised to look like an argument. We want to think that reasons and arguments can be given to support our views, even if those arguments aren’t very good. As a result, one very effective way of persuading people is to appeal to their emotions (e.g., their self-interest or their fears) but to dress the appeal up as an argument that doesn’t appear to appeal to their feelings. We will encounter various techniques for persuasion throughout the textbook. Some involve good arguments. Some (called fallacies) masquerade as good arguments (when they really aren’t). We will also examine various non-rational ways of persuading people. If we are aware of these, we will be less likely to be drawn in by them.

Biases are systematic tendencies to reason badly. We will study several biases in the following chapters. All of us are vulnerable to biases; but understanding how they work and seeing how pervasive they are will help us to minimize their influence in our own thinking and to spot their results in the thinking of others.

Bad reasoning is said to be fallacious . If our reasoning is biased, we are likely to commit fallacies. In Chapter 4 of the textbook we will study several common fallacies.

Throughout the textbook, we will learn various safeguards for counteracting common biases in thought and avoiding fallacies.

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7 CRITICAL READING STRATEGIES

1. Previewing: Learning about a text before really reading it.

Previewing enables readers to get a sense of what the text is about and how it is organized before reading it closely. This simple strategy includes seeing what you can learn from the headnotes or other introductory material, skimming to get an overview of the content and organization, and identifying the rhetorical situation.

 2. Contextualizing: Placing a text in its historical, biographical, and cultural contexts.

When you read a text, you read it through the lens of your own experience. Your understanding of the words on the page and their significance is informed by what you have come to know and value from living in a particular time and place. But the texts you read were all written in the past, sometimes in a radically different time and place. To read critically, you need to contextualize, to recognize the differences between your contemporary values and attitudes and those represented in the text.  

3.  Questioning to understand and remember: Asking questions about the content.

As students, you are accustomed (I hope) to teachers asking you questions about your reading. These questions are designed to help you understand a reading and respond to it more fully, and often this technique works. When you need to understand and use new information though it is most beneficial if you write the questions, as you read the text for the first time. With this strategy, you can write questions any time, but in difficult academic readings, you will understand the material better and remember it longer if you write a question for every paragraph or brief section. Each question should focus on a main idea, not on illustrations or details, and each should be expressed in your own words, not just copied from parts of the paragraph.  

4. Reflecting on challenges to your beliefs and values: Examining your personal responses.

The reading that you do for this class might challenge your attitudes, your unconsciously held beliefs, or your positions on current issues. As you read a text for the first time, mark an X in the margin at each point where you feel a personal challenge to your attitudes, beliefs, or status. Make a brief note in the margin about what you feel or about what in the text created the challenge. Now look again at the places you marked in the text where you felt personally challenged. What patterns do you see?  

5. Outlining and summarizing: Identifying the main ideas and restating them in your own words.

Outlining and summarizing are especially helpful strategies for understanding the content and structure of a reading selection. Whereas outlining reveals the basic structure of the text, summarizing synopsizes a selection's main argument in brief. Outlining may be part of the annotating process, or it may be done separately (as it is in this class). The key to both outlining and summarizing is being able to distinguish between the main ideas and the supporting ideas and examples. The main ideas form the backbone, the strand that holds the various parts and pieces of the text together. Outlining the main ideas helps you to discover this structure. When you make an outline, don't use the text's exact words.

Summarizing begins with outlining, but instead of merely listing the main ideas, a summary recomposes them to form a new text. Whereas outlining depends on a close analysis of each paragraph, summarizing also requires creative synthesis. Putting ideas together again -- in your own words and in a condensed form -- shows how reading critically can lead to deeper understanding of any text.  

6. Evaluating an argument: Testing the logic of a text as well as its credibility and emotional impact.

All writers make assertions that they want you to accept as true. As a critical reader, you should not accept anything on face value but to recognize every assertion as an argument that must be carefully evaluated. An argument has two essential parts: a claim and support. The claim asserts a conclusion -- an idea, an opinion, a judgment, or a point of view -- that the writer wants you to accept. The support includes reasons (shared beliefs, assumptions, and values) and evidence (facts, examples, statistics, and authorities) that give readers the basis for accepting the conclusion. When you assess an argument, you are concerned with the process of reasoning as well as its truthfulness (these are not the same thing). At the most basic level, in order for an argument to be acceptable, the support must be appropriate to the claim and the statements must be consistent with one another.  

7. Comparing and contrasting related readings: Exploring likenesses and differences between texts to understand them better.

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