teaching for understanding active learning & assessment diane ebert-may department of plant...

Teaching for Understandin

g Active Learning& Assessment

Diane Ebert-MayDepartment of Plant Biology

Michigan State University

ebertmay@msu.eduhttp://first2.org

The trouble with our times is that the future is not what it

used to be. -Paul Valery, The Art of Poetry

Implement a learning cycle instructional design

Organize and use cooperative groups

Create an active, learner-centered classroom

Develop goals/assessments

Use concept maps - maybe

Analyze data to improve instruction

Develop rubrics for assessment

Figure out how to make the rewards worth “it”

Objectives: you will be able to.....

Engage

Explore

Explain

Assess

Learning Cycle

Engage

Question 1

Students learn science best by doing science.

Please respond on a scale of 1-5: 1=strongly agree; 2=agree; 3=neutral; 4= disagree;

5=strongly disagree

Question 2

Science should be taught as it is practiced.

Please respond on a scale of 1-5: 1=strongly agree; 2=agree; 3=neutral; 4= disagree;

5=strongly disagree

Question 3

How important is it to use multiple kinds of data to assess student learning?

Please respond on a scale if 0-100 in increments of 10:

Question 4

How often do you use multiple kinds of data to make instructional decisions?

Please respond on a scale of 0 - 100 in increments of 10:

Question 5

Large lectures (>50) are active learning environments.

Please respond on a scale of 1-5: 5=strongly agree; 4=agree; 3=neutral; 2= disagree;

1=strongly disagree

In my department, excellence in teaching is rewarded at a level comparable to excellence in research.

Question 6

Please respond on a scale of 1-5: 1=strongly agree; 2=agree; 3=neutral; 4= disagree;

5=strongly disagree

Where on the continuum is the ideal classroom ?

Question 7

Increasing shared responsibility for learning

Learner-Centered

Teacher- Centered

1 2 3 4 5

Where on the continuum is your classroom?

Question 8

Increasing shared responsibility for learning

Learner-Centered

Teacher- Centered

1 2 3 4 5

Question 1

Students learn science best by doing science.

Please respond on a scale of 1-5: 1=strongly agree; 2=agree; 3=neutral; 4= disagree;

5=strongly disagree

Question 2

Science should be taught as it is practiced.

Please respond on a scale of 1-5: 1=strongly agree; 2=agree; 3=neutral; 4= disagree;

5=strongly disagree

Learners doing science...

Question 3

How important is it to use multiple kinds of data to assess student learning?

Please respond on a scale if 0-100 in increments of 10:

How important is it to use multiple forms of data to assess student

learning?

%

Relative Importance n=127

Question 4

How often do you use multiple kinds of data to make instructional decisions?

Please respond on a scale of 0 - 100 in increments of 10:

How often do you use data to make instructional decisions?

n=127Frequency

%

Question 5

Large (>50) introductory courses are active learning environments.

Please respond on a scale of 1-5: 1=strongly agree; 2=agree; 3=neutral; 4= disagree;

5=strongly disagree

In my department, excellence in teaching is rewarded at a level comparable to excellence in research.

Question 6Please respond on a scale of 1-5:

1=strongly agree; 2=agree; 3=neutral; 4= disagree; 5=strongly disagree

Where on the continuum is the ideal classroom ?

Question 7

Increasing shared responsibility for learning

Learner-Centered

Teacher- Centered

1 2 3 4 5

Where on the continuum is your classroom?

Question 8

Increasing shared responsibility for learning

Learner-Centered

Teacher- Centered

1 2 3 4 5

Explore

What’s up with Termites?

1. On a sheet of paper, draw two circles near each other on the center of the page.

2. Release termites onto paper.

3. Keep creatures safe. I shall collect them in their original habitat.

4. What do you observe about termite behavior?

5. Develop a question your group could explore if you had more time.

(15 minutes - select a timekeeper)

1. Develop one possible objective for this ‘inquiry’

Team Written response. Overhead.Reporter - Recorder - Timekeeper - (10 minutes)Checker -

2. Develop an assessment appropriate for the objectives.

Explain

What is assessment?

Data collection with the purpose of answering questions about…

students’ understanding

students’ attitudes

students’ skills

instructional design and implementation

curricular reform (at multiple grainsizes)

Why do assessment?

Improve student learning and development.

Provides students and facultysubstantive feedback about student understanding.

Challenge to use disciplinary research strategies to assess learning.

Video

Final Assessment?

Guidelines for thinking about research...

What did students learn? (assessment data)

Why did students respond a particular way? (research)

What are the working hypotheses or questions?

What has already been done? Literature says...

How and why to select methods? Conduct study...

How to analyze and interpret data?

What do the results mean?

Are findings valid and generalizable?

Research

Data collection

Assessment GradientAssessment Gradient

High

Ease of

Assessment

Low

Multiple Choice, T/F

Diagrams, Concept maps, Quantitative

response

Short answer

Essay, Research papers/ reports

Oral Interview

Low

Potential for

Assessment of

Learning

High

Identify desired

outcomes

Determine acceptable evidence

Design learning experiences

and instruction

Wiggins and McTighe 1998

Objective (outcome):

Students will demonstrate understanding of evolution by natural selection.

Teaching and Learning Challenges

Students Conceptions about Natural Selection:

Changes in a population occur through a gradual change in individual members of a population.

New traits in species are developed in response to need.

All members of a population are genetically equivalent, variation and fitness are not considered.

Traits acquired during an individual’s lifetime will be inherited by offspring.

Problem (evidence)Write a scenario that explains the phenotypic changes in the tree and the animal. Use your understanding of evolution by natural selection.

Text

How do we develop rubrics?

Describe the goal/objective for the activity, problem, task...

Select the assessment tasks aligned with goals

Develop performance standards Differentiate levels of responses

based on clearly described criteria Rate (assign value) the categories

Level of Achievement General Approach ComprehensionExemplary(5 pts)

• Addresses thequestion.• States a relevant,justifiable answer.• Presents arguments ina logical order.• Uses acceptable styleand grammar (noerrors).

• Demonstrates an accurate andcomplete understanding of thequestion.• Backs conclusions with dataand warrants.• Uses 2 or more ideas,examples and/or arguments thatsupport the answer.

Adequate(3 pts)

• Does not address thequestion explicitly,although does sotangentially.• States a relevant andjustifiable answer.• Presents arguments ina logical order.• Uses acceptable styleand grammar (oneerror).

• Demonstrates accurate but onlyadequate understanding ofquestion because does not backconclusions with warrants anddata.• Uses only one idea to supportthe answer.• Less thorough than above.

Needs Improvement(1 pt)

• Does not address thequestion.• States no relevantanswers• indicatesmisconceptions.• Is not clearly orlogically organized.• Fails to use acceptablestyle and grammar (twoor more errors).

• Does not demonstrate accurateunderstanding of the question.• Does not provide evidence tosupport their answer to thequestion.

No Answer (0 pts)

Scoring Rubric for Quizzes and Homework

Advantages of Scoring Rubrics

Improve the reliability of scoring written assignments and oral presentationsConvey goals and performance expectations of students in an unambiguous wayConvey “grading standards” or “point values” and relate them to performance goalsEngage students in critical evaluation of their own performance Save time but spend it well

Limitations of Scoring RubricsProblem of criteria

Problem of practice and regular use

Scoring Rubric websitehttp://www.wcer.wisc.edu/nise/cl1/flag/Sample Rubrics for Environmental Sciencehttp://www.msu.edu/~ebertmay/isb202/home.html

What Type of Learning?Bloom (1956) Cognitive Domain of Educational Objectives

6 categories - KnowledgeComprehensionApplicationAnalysisSynthesisEvaluation

Condense to 4 - easy to work with

Cognitive LevelsKnowledge - remember

Comprehension and Application - grasp meaning, use, interpret

Critical Analysis - original thinking, open-ended answers, whole to parts, parts to whole, evaluation

Synthesis - make connections, evaluate

Model for Learning - System

So what is a concept?1.Take a piece of paper -- one of the ‘dino-tree’

responses will work--

2.Fold it in half.

3.On the top half, draw a bicycle.

4.On the bottom half, describe bicycle in writing.

5.Which is a better representation of the concept ‘bicycle’?

6.Would a concept map be “best”?

Concepts are...Pr

otot

ypica

lKnowledge-based

Lexical

Hierarchy

has

Structure

has

Concept Maps

Visual DiagramsOr Models

are represent

Knowledge or Understanding

Concepts

display

connectedwith

Linking Words

Used for

Assessment Organization

Reflection &Learning

promotes

Context

is constructedwith

NewInformation

PriorKnowledge

www.ctools.msu.edu

Robo Grader in Action

TextStudent’s Concept Map

1. Select a concept that is critical for your students to understand.

2. Identify 4 or 5 subconcepts that are important to understanding that concept

e.g., DNA - Gene- Chromosome - Enzyme

For a course you teach .....

3. Arrange them by rank order - top most general, bottom most specific

4. Add linking lines to make connections between two concepts

5. Add linking words that describe the relationship between two concepts

How do assessment questions help us determine students’ prior understanding and progressive thinking about the carbon cycle.

Question

Concept 1: Matter disappears during decomposition of organisms in the soil.

Concept 2: Photosynthesis as Energy: Photosynthesis provides energy for uptake of nutrients through roots which builds biomass. No biomass built through photosynthesis alone.

Concept 3: Thin Air: CO2 and O2 are gases therefore, do not

have mass and therefore, can not add or take away mass from an organism.

Concept 4: Plant Altruism: CO2 is converted to O2 in plant

leaves so that all organisms can ‘breathe’.

Concept 5: All Green: Plants have chloroplasts instead of mitochondria so they can not respire.

Some Common Misconceptions about Photosynthesis & Respiration

Quantitative Data

Qualitative Data

Design Experiment

Ebert-May et al. 2003 Bioscience

Instructional Design

Two class meetings on carbon cycle (160 minutes)Active, inquiry-based learning

Cooperative groupsQuestions, group processing, large lecture sections, small discussion sections, multi-week laboratory investigationHomework problems including web-based modules

Different faculty for each courseOne graduate/8-10 undergraduate TAs per course

Experimental DesignTwo introductory courses for majors:Bio 1 - organismal/population biology (faculty A)

Bio 2 - cell and molecular biology (faculty B)

Three cohorts:Cohort 1

Bio 1 (n=141)Cohort 2 Bio1/Bio2 (n=63) Cohort 3

Other/Bio2 (n=40)

Radish Problem

Experimental setup:Weighed out 3 batches of radish seeds

each weighing 1.5 g. Experimental treatments:

1. Seeds placed on moistened paper towels in LIGHT

2. Seeds placed on moistened paper towels in DARK

3. Seeds not moistened (left DRY) placed in light

Problem (2)

After 1 week, all plant material was dried in an oven overnight (no water left) and plant biomass was measured in grams. Predict the biomass of the plant material in the various treatments.

Water, lightWater, dark

No water, light

Results: Mass of Radish Seeds/Seedlings

1.46 g 1.63 g 1.20 g

Write an explanation about the results.

Explain the results.Write individually on carbonless

paper.

Assessment Design

Multiple iterations/versions of the carbon cycle problem

Pretest, midterm, final with additional formative assessments during class

Administered during instructionSemester 1 - pretest, midterm, final exam Semester 2 - final exam

Grandma Johnson Problem Hypothetical scenario: Grandma Johnson

had very sentimental feelings toward Johnson Canyon, Utah, where she and her late husband had honeymooned long ago. Her feelings toward this spot were such that upon her death she requested to be buried under a creosote bush overlooking the canyon. Trace the path of a carbon atom from Grandma Johnson’s remains to where it could become part of a coyote. NOTE: the coyote will not dig up Grandma Johnson and consume any of her remains.

Analysis of Responses

Used same scoring rubric (coding scheme) for all three problems - calibrated by adding additional criteria when necessary, rescoring:

Examined two major concepts: Concept 1: Decomposers respire CO2

Concept 2: Plants uptake of CO2

Explanations categorized into two groups:Organisms (trophic levels)Processes (metabolic)

Code Organisms Code Processes and pathways 1 Decomposers IA Cellular Respiration IB Release CO2 2 IIA Pathway of Carbon

Primary producers IIA _1: through Air IIA _2 : through Root IIA _3 : no mention about pathway IIB Make Glucose IIC Photosynthesis 3 Herbivore III Respiration

(glycolysis, Kreb cycle) 4 Carnivore IV Respiration

(glycolysis, Kreb cycle)

Coding Scheme

Corr

ect

Stu

den

t R

esp

on

ses

(%)

Cellular Respiration by Decomposers

Bio1/Bio2 Other/Bio2

Friedmans, p<0.01

Pathway of Carbon in Photosynthesis

Bio1/Bio2

Corr

ect

Stu

dent

Resp

on

ses

(%)

Other/Bio2

Friedmans, p<0.05

Question 9

True or False?

Assessing student learning in science parallels what scientists do as researchers.

1. Description:

-What is happening?

2. Cause:

-Does ‘x’ (teaching strategy) affect ‘y’ (understanding)?

3. Process or mechanism:

-Why or how does ‘x’ cause ‘y’?

Parallel: ask questions

We collect data to find out what our students know.

Data helps us understand student thinking about concepts and content.

We use data to guide decisions about course/curriculum/innovative instruction

Parallel: collect data

Quantitative data - statistical analysis

Qualitative data

break into manageable units and define coding categories

search for patterns, quantify

interpret and synthesize

Valid and repeatable measures

Parallel: analyze data

Ideas and results are peer reviewed - formally and/or informally.

Parallel: peer review

Assessment of Workshop

Minute Paper

Q1 What was helpful to you? Why?

Q2 What would have been helpful to you ? Why?

Q3 What should we focus on in future workshops?

IRD Team at MSU

Janet Batzli - Plant Biology [U of Wisconsin]Doug Luckie - PhysiologyScott Harrison - Microbiology (grad student)Tammy Long - Plant BiologyDeb Linton - Plant Biology (postdoc)Rett Weber - Plant BiologyHeejun Lim - Chemistry EducationDuncan Sibley - GeologyRob Pennock - PhilosophyCharles Ofria - EngineeringRich Lenski - Microbiolgy*National Science Foundation

Does active, inquiry-based instructional design influence students’ understanding of evolution and natural selection?

Pre-Posttest Analysis

■ Changes in a population occur through a gradual change in individual members of a population.

■ New traits in species are developed in response to need.

■ All members of a population are genetically equivalent, variation and fitness are not considered.

■ Traits acquired during an individual’s lifetime will be inherited by offspring.

Alternative Conceptions: Natural Selection

(AAAS 1999)

Explain the changes that occurred in the tree and animal. Use your current understanding of evolution by natural selection.

Misconception: individuals evolve new traitsMisconception: individuals evolve new traits

% o

f S

tud

en

ts

n=80; p<.01

Misconception: evolution is driven by needMisconception: evolution is driven by need

% o

f S

tud

en

ts

n=80; p<.01

In guppy populations, what are the primary changes that occur gradually over time?

In guppy populations, what are the primary changes that occur gradually over time?

a. The traits of each individual guppy within a population gradually change.

b. The proportions of guppies having different traits within population change.

c. Successful behaviors learned by certain guppies are passed on to offspring.

d. Mutations occur to meet the needs of the guppies as the environment changes.

Anderson et al 2002

Posttest: Student responses to mcPosttest: Student responses to mc

% o

f S

tud

en

ts

n=171

*

Animal/Tree Posttest: Gain in student understanding of fitnessAnimal/Tree Posttest: Gain in student understanding of fitness

% o

f S

tud

en

ts

n=80; p<.01