good morning. 2 objectives of learning vanaja.m assistant professor department of education acharya...
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Objectives of LearningObjectives of Learning
VANAJA .MVANAJA .MAssistant ProfessorAssistant ProfessorDepartment of EducationDepartment of EducationAcharya Nagarjuna UniversityAcharya Nagarjuna University
Please interrupt me at any time.I don’t know all the answers.I also know that some of my teaching experiences may not translate to your needs.My purpose is to share some of my experiences with you with the hope that you will learn from my time in this session
AN IMPORTANT CONFESSION
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Think about the last class you taught.
1. Can you list what you covered?2. Can you list what your students
learned?
Why is question 1 easier to answer than question 2?
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• Not sure what I really want my students to learn.
• Do not know the language and the disciplinary framework of learning.
• Not sure how to match up my teaching to their learning.
Why is question 1 easier to answer than question 2?
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A Technique That Helps Us Go Beyond
Knowing About What We Tech To
Knowing What Our Students Learn
Learning Objectives
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Why Active Learning?
Confucius (400 BC):• What I hear, I forget.• What I see, I remember.• What I do, I understand.• Silberman (1996):• What I hear, I forget.• What I hear and see, I remember a little.• What I hear, see, and ask questions about or
discuss with someone else, I begin to understand.• What I hear, see, discuss and do, I acquire
knowledge and skill.• What I teach to another, I master.
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Bloom’s Taxonomy of Educational Objectives*
Apply
Comprehend
Rememberexplain, paraphrase
calculate, solve,determine, apply
Analyzecompare, contrast, classify,
categorize, derive, model
Synthesizecreate, construct, design, improve, produce, propose
Evaluatejudge, critique, justify,
verify, assess, recommend
For theCognitiveDomain
*includes refinements by Anderson, et. al. *includes refinements by Anderson, et. al. list, recite
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• Knowledge• • What is...?• Where is...?• How did _____ happen?• Why did...?• When did...?• Who were the main characters?• How does the selection end?• Describe the setting.• Can you tell three...?• How would you show…?• Which one…?• How is...?• When did _____ happen?
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Comprehension •How would you compare...? •How would you contrast...? •What is the main idea of...? • What is meant by...? •Retell the story. •How did the character feel about...?•Explain what is happening when the
author says...•Explain why the story has the title that it does. •Look at the picture. •Explain what happened before the picture and after the picture.
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Application• What examples can you find to support...? •Think of a situation that occurred to a person in the selection and tell what you would have done. •What would result if...? •Using what you know, how would you solve...? •Compare and contrast... •What would you do if you could go to the place where the main character lived? •What questions would you ask if...? •If you had to cook a meal for the main character, what would you make?
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• How is __________ related to...? • What is the theme of...? • What motive is there? • What conclusions can you draw about...? • How would you classify...? • How would you categorize...? • What is the relationship between...? • What ideas justify...? • What evidence can you find? • What inferences can you make about...? • What was the funniest part of the selection? Most
exciting? Saddest? • Distinguish between two facts and two opinions. • Re-title this story.
Analysis
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Synthesis
•How would you improve...? •What changes would you make to...? •What would happen if...? •Can you elaborate on the reason? •How could you change the plot? •Suppose you could_____; what would you do? •Can you predict the outcome of...? • How would you rewrite the selection from _____’s point of view? •How would you rewrite the ending of the story? •What facts could you compile about...?
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Evaluation•Compare two characters in the selection. Which was a better person?•Why?
•Which character would you most like to spend the day with? •Do you agree with the actions of...? •What is your opinion of...? •Would you recommend...? •How could you determine...? •Why was it better that...? •What choice would you have made about...? •How would you explain...? •What data was used to make the conclusion? •Would it be better if...?
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Example (Lesson-Level) Objectives
• Design the members of the structural steel truss shown below to withstand the HS-20 truck load at any point along the bridge.
SynthesizeSynthesize
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Example(Lesson-Level) Objectives
• List the assumptions used in analyzing truss structures.
RememberRemember
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Example (Lesson-Level) Objectives
• Compute the internal force in truss member AB.
ApplyApply
4 kips 8 kips 5 kips
9 ft
A GB FEDC
L K J I H
9 ft 9 ft 9 ft
12 ft
2. Determine the internal force in members EF, EI and IJ of the truss shown. Also, indicate all zero-force members.
(ANS) FEF = 7.50 kips (C), FEI = 2.50 kips (C), FIJ = 7.50 kips (T)
LSN 10: S-9
9 ft 9 ft
4 kips 8 kips 5 kips
9 ft
A GB FEDC
L K J I H
9 ft 9 ft 9 ft
12 ft
2. Determine the internal force in members EF, EI and IJ of the truss shown. Also, indicate all zero-force members.
(ANS) FEF = 7.50 kips (C), FEI = 2.50 kips (C), FIJ = 7.50 kips (T)
LSN 10: S-9
9 ft 9 ft
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Example (Lesson-Level) Objectives
• Assess the three truss designs shown below and recommend the best solution. Explain.
EvaluateEvaluate
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Instructional Objective ExamplesAt the end of this section of the course, the student should be able
to:• State typical values for the conductivities and numbers of carriers in
metals, semiconductors and insulating materials. • Use basic equations for conduction to determine quantities such as
resistivities and mobilities when given data such as resistance and material dimensions.
• State whether the observed behavior is representative of metallic or semiconducting behavior when given resistance vs. T data .
• Describe the basic differences between intrinsic and extrinsic conduction behavior in materials such as Si, ZrO2, and NaCl.
• Use Kroger-Vink notation to describe the defect chemistry of typical doped semiconductor and insulator materials when provided with a specific dopant.
• Be able to calculate the activation energies associated with charge transport and defect generation as well as the doping level of the material.
• Calculate the equilibrium coefficient associated with a particular defect reaction at a specified temperature.
• Plot the pO2 dependence of the defect concentrations when provided appropriate chemical equilibrium data.
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SOLO Taxonomy:Structure of Observed Learning Outcomes
• Pre structural• Uni structural• Multi structural• Relational• Extended Abstract
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• The Structure of Observed Learning Outcome (SOLO) taxonomy is a model that describes levels of increasing complexity in student's understanding of subjects. It was proposed by John B. Biggs and K. Collis and has since gained popularity.
• The model consists of 5 levels of understanding • Pre-structural - The task is not attacked appropriately; the
student hasn’t really understood the point and uses too simple a way of going about it.
• Uni-structural - The student's response only focuses on one relevant aspect.
• Multi-structural - The student's response focuses on several relevant aspects but they are treated independently and additively. Assessment of this level is primarily quantitative.
• Relational - The different aspects have become integrated into a coherent whole. This level is what is normally meant by an adequate understanding of some topic.
• Extended abstract - The previous integrated whole may be conceptualised at a higher level of abstraction and generalised to a new topic or area.
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…and into this situation with a better future. It is good to grow when some
one sets limits and cares!