“The aim of education should be to teach us rather how to think, than what to think – rather to...
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Transcript of “The aim of education should be to teach us rather how to think, than what to think – rather to...
“The aim of education should be to teach us rather how to think, than what to think – rather to improve our minds, so as to enable us to think for ourselves, than to load the memory with the thoughts of other men.”
--John Dewey
What is Higher-order thinking?
• Instruction that….challenges the student to interpret, analyze, or manipulate information, because a question to be answered or a problem to be solved cannot be resolved through the routine application of previously learned knowledge.
• This definition captured both the challenge of problem solving and the type of thinking in the higher taxonomical levels.
http://www.aare.edu.au/04pap/dav04854.pdf
Higher-order Thinking is:
Higher-order thinking by students involves:
• the transformation of information and ideas.
• the manipulation of information and ideas
• the construction of knowledge
(Department of Education, Queensland, 2002, p. 1)
Teacher’s Instructional Task
• Is to create activities that Is to create activities that promote and require higher-promote and require higher-order thinking.order thinking.
• Is to create environments that Is to create environments that allow them opportunities to allow them opportunities to engage in higher-order engage in higher-order thinking.thinking.
Original Terms New Terms
• Evaluation
• Synthesis
• Analysis
• Application
• Comprehension
• Knowledge
•Create
•Evaluate
•Analyze
•Apply
•Understand
•Remember(Based on Pohl, 2000, Learning to Think, Thinking to Learn, p. 8)
Change in Terms• The categories were changed from noun to action verb. • The taxonomy is reflective different of thinking; thinking is an
active process. • Some categories were reorganized.• Knowledge was renamed remember. Knowledge is the result
of thinking and did not adequately describe the act of thinking. • Comprehension was renamed understand. Comprehension is
the result of thinking and did not adequately describe the thinking process involved.
• Synthesis was renamed create. It is reflective of the thinking requirements.
http://rite.ed.qut.edu.au/oz-teachernet/training/bloom.html
BLOOM’S REVISED TAXONOMY
CreateCreateGenerating new ideas, products, or ways of viewing thingsDesigning, constructing, planning, producing, inventing.
EvaluateEvaluate
Justifying a decision or course of actionChecking, hypothesizing, critiquing, experimenting, judging
AnalyzeAnalyze
Breaking information into parts to explore understandings and relationshipsComparing, organizing, deconstructing, interrogating, finding
ApplyApply
Using information in another familiar situationImplementing, carrying out, using, executing
UnderstandUnderstand
Explaining ideas or conceptsInterpreting, summarizing, paraphrazing, classifying, explaining
RememberRemember
Recalling informationRecognizing, listing, describing, retrieving, naming, finding
Remember
Student recalls or recognizes information, Student recalls or recognizes information, ideas, and principles in the approximate ideas, and principles in the approximate form in which they were learned.form in which they were learned.
Questions for Remembering• What happened after...?
• How many...?
• What is...?
• Who was it that...?
• Can you name ...?
• Find the definition of…
• Describe what happened after…
• Who spoke to...?
• Which is true or false...?(Pohl, Learning to Think, Thinking to Learn, p. 12)
Understand
Student translates, comprehends, or Student translates, comprehends, or interprets information based on prior learning.interprets information based on prior learning.
OutlineOutline
TranslateTranslateRestateRestate
Questions for Understanding• Can you explain why…?• Can you write in your own words? • How would you explain…?• Can you write a brief outline...?• What do you think could have happened next...?• Who do you think...?• What was the main idea...?• Can you clarify…?• Can you illustrate…?• Does everyone act in the way that …….. does?
(Pohl, Learning to Think, Thinking to Learn, p. 12)
Apply
Students selects, transfers, and uses data and principles to complete a problem or task with minimum of direction.
ConstructConstruct
Questions for Applying
• Do you know of another instance where…?
• Can you group by characteristics such as…?
• Which factors would you change if…?
• What questions would you ask of…?
• From the information given, can you develop a set of instructions about…?
(Pohl, Learning to Think, Thinking to Learn, p. 13)
Analyze
Student distinguishes, classifies, and relates the assumptions, hypotheses, evidence, or structure of a statement or question.
Question for Analyzing
• Which events could not have happened?• If. ..happened, what might the ending have been?• How is...similar to...?• What do you see as other possible outcomes?• Why did...changes occur?• Can you explain what must have happened when...?• What are some or the problems of...?• Can you distinguish between...?• What were some of the motives behind..?• What was the turning point?• What was the problem with...?
(Pohl, Learning to Think, Thinking to Learn, p. 13)
Evaluate
Student appraises, assesses, or critiques on a basis of specific standards and criteria.
Questions for Evaluating• Is there a better solution to...?• Judge the value of... What do you think about...?• Can you defend your position about...?• Do you think...is a good or bad thing?• How would you have handled...?• What changes to.. would you recommend?• Do you believe...? How would you feel if. ..?• How effective are. ..?• What are the consequences..?• What influence will....have on our lives?• What are the pros and cons of....?• Why is ....of value? • What are the alternatives?• Who will gain & who will loose?
(Pohl, Learning to Think, Thinking to Learn, p. 14)
Create
Student originates, integrates, and combines ideas into a product, plan or proposal that is new to him or her.
Questions for Creating• Can you design a...to...?• Can you see a possible solution to...?• If you had access to all resources, how would you deal
with...?• Why don't you devise your own way to...?• What would happen if ...?• How many ways can you...?• Can you create new and unusual uses for...?• Can you develop a proposal which would...?
(Pohl, Learning to Think, Thinking to Learn, p. 14)
A New Graphic Variation
Analyze
Apply
Understand
Remember
Evaluate Create
Lower and Higher Order Questions
• Lower level questions are those at the remembering, understanding and lower level application levels of the taxonomy.
• Usually questions at the lower levels are appropriate for:
• Evaluating students’ preparation and comprehension
• Diagnosing students’ strengths and weaknesses
• Reviewing and/or summarizing contentwww.oir.uiuc.edu/Did/docs/QUESTION/quest1.htm
Lower and Higher Order Questions
• Higher level questions are those requiring complex application, analysis, evaluation or creation skills.
• Questions at higher levels of the taxonomy are usually most appropriate for:
• Encouraging students to think more deeply and critically
• Problem solving• Encouraging discussions• Stimulating students to seek information on their
ownwww.oir.uiuc.edu/Did/docs/QUESTION/quest1.htm
““If you are on the right track, but If you are on the right track, but not moving forward, you’ll get run not moving forward, you’ll get run over by the train!”over by the train!”
Will RogersWill Rogers
Rigor and Relevance Framework:
• The Rigor/Relevance Framework is a tool developed by staff of the International Center for Leadership in Education to examine curriculum, instruction, and assessment.
• The Rigor/Relevance Framework is based on two dimensions of higher standards and student achievement.
Rigor/Relevance Framework (With Erickson’s Structure of Knowledge in Concept-Based Curriculum and Instruction)
1.Create
Assimilation
CAdaptation
D1.Evaluate
1.Analyze
1.ApplyAcquisition
AApplication
B1.Understand
1.Remember
1.Knowledge in this one discipline
1.Apply knowledge in one disciplines
1.Apply knowledge across disciplines
1.Apply knowledge to real-world predictable situations
1.Apply knowledge to real-world unpredictable situations
Facts
Facts
Facts
Facts Topics Concepts
Enduring Understanding (Generalizations)
Enduring Understanding
• Our goal as teachers is to make sure our students understand the important concepts and ideas they are learning.
• We need to ask ourselves what is it we want our students to truly understand and be able to draw upon for the rest of their lives.
- Wiggins and McTighe
Think about your curriculum
• What deep learning do you want your students to keep forever?
• Do your students really understand why they are learning what they are learning?
• Do we really understand why our students must learn what we are teaching?
- Wiggins and McTighe
Teachers Must Identify The “Big Ideas”
“My experience has been that unless teachers consciously identify these understandings, they focus on the fact-based content as the endpoint of instruction, and the conceptual level of understanding usually is not addressed.”
Lynn Erickson- Concept-Based Curriculum and Instruction
The Disconnection
• There is a disconnection between real life and school. Students don’t fully understand why they are learning the things they are learning.
• It is critical that we fully understand why the students must learn what we are teaching, and how this learning will benefit them in life.
• We must also be able to help our students understand what the deep learning or enduring understandings are so they can make these connections for themselves.
- Wiggins and McTighe
You really understand when you can:
– explain, connect, systematize, predict it– show its meaning, importance– apply or adapt it to novel situations– see it as one plausible perspective among
others, question its assumptions– see it as its author/speaker saw it– avoid and point out common misconceptions,
biases, or simplistic views- Wiggins
and McTighe
You’ve got to go below the surface...
To Uncover the Big Ideas
Print Resources• Clements, D.; C. Gilliland and P. Holko. (1992). Thinking in Themes: An
Approach Through the Learning Centre. Melbourne: Oxford University Press.
• Crawford, Jean (ed.) (1991). Achieveing Excellence: Units of Work for levels P-8. Carlton South, Vic.: Education Shop, Ministry of Education and Training, Victoria.
• Crosby, N. and E. Martin. (1981). Don’t Teach! Let Me Learn. Book 3. Cheltenham, Vic.: Hawker Brownlow.
• Dalton, Joan. (1986). Extending Children’s Special Abilities: Strategies for Primary Classrooms. Victoria: Department of School Education, Victoria.
• Forte, Imogene and S. Schurr. (1997). The All-New Science Mind Stretchers: Interdisciplinary Units to Teach Science Concepts and Strengthen Thinking Skills. Cheltenham, Vic.: Hawker Brownlow.
• Fogarty, R. (1997). Problem-based learning and other curriculum models for the multiple intelligences classroom. Arlington Heights, IL: IRI/Skylight Training and Publishing, Inc.
• Frangenheim, E. (1998). Reflections on Classroom Thinking Strategies. Loganholme: Rodin Educational Consultancy.
Print Resources• Knight, BA., S. Bailey, W. Wearne and D. Brown. (1999). Blooms
Multiple Intelligences Themes and Activities. • McGrath, H and T. Noble. (1995). Seven Ways at Once: Units of Work
Based on the Seven Intelligences. Book 1. South Melbourne: Longman.
• Pohl, M. (2000). Teaching Complex Thinking: Critical, Creative, Caring. Cheltenham, Vic.: Hawker Brownlow.
• Pohl, Michael. (1997). Teaching Thinking Skills in the Primary Years: A Whole School Approach. Cheltenham, Vic.: Hawker Brownlow Education.
• Pohl, Michael. (2000). Learning to Think, Thinking to Learn: Models and Strategies to Develop a Classroom Culture of Thinking. Cheltenham, Vic.: Hawker Brownlow.
• Ryan, Maureen. (1996). The Gifted and Talented Children’s Course: Resolving Issues, Book 13- 7-8 Year Olds. Greenwood, WA: Ready-Ed Publications.