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The Biological Bases of Behavior Unit Plan

The Biological Bases of Behavior Unit Plan...

Unit Plan Elements

The Biological Bases of Behavior Unit Plan, published in 1995, is designed as a seven-lesson unit plan.  The plan comprises 56 pages and includes:

Unit Plan Authorship

The Biological Bases of Behavior Unit Plan was prepared by:

Blaine Adams
Elizabeth Berry
Gerald Blackstone
Betsy Fuqua
Lorrilee Geraci
Roger Hazzard
Joseph Lamas
Rhinehart Lintonen
Laura Maitland
Bates Mandel
Mike Riley
Pat Rowan
Ron Thorton
Robert Windemuth

Edited by:  Laura Maitland

Copyright Information

The procedural timeline from the Development Unit Plan is reprinted here with the permission of the Education Directorate of the APA.  Further publication of any material from the unit plan is not permitted without the express consent of the Education Directorate.

How to Obtain the Unit Plan

To obtain a complete copy of the Development Unit Plan contact the APA at:

TOPSS
c/o Sherrill Simons
American Psychological Association
Education Directorate
750 First St., NE
Washington, DC  20002-4242

mailto:ssimons@apa.org

Unit Plan Procedural Timeline

This unit is designed to be used in whole by teachers of Advanced Placement and Honors Psychology or in part by teachers of college preparatory psychology.

Show a videotape clip that relates change of behavior, i.e. loss of function, to damage to specific area of the brain selected from: The Story of Phineas Gage (The Brain Series Teaching Module 2), Life Without Memory: The Case of Clive Wearing (The Mind Series Teaching Module 24) or excerpt from The Man Who Mistook His Wife for a Hat.

Use slides, transparencies, pictures and microscope slides to illustrate techniques used to learn about brain and neural function (Content Outline Lesson 1).

Show a videotape clip illustrating techniques selected from: Overview of Brain Organization (The Brain Module 1), Recording Integrated Brain Activity (The Mind Module 5), excerpt from The Behaving Brain (from Discovering Psychology) or magazine/journal article -- such as from the September 1992 Scientific American.

Select from Questions for Discussion/Critical Thinking

 

Show the first few minutes of The Behaving Brain from the Discovering Psychology series dealing with the structure and function of the neuron.

Use transparencies or pictures of the neuron, synapse, a graph of the electrical changes in axonal polarization during impulse propagation and the reflex arc to illustrate the relationship of structure and fuction.

Have students do Module A: Neural Messages of the PsychSim computer lab series or do Activity 2.1: Neurons and Impulse Conduction or do Activity 2.2: Conduction Of a Neuronal Impulse or do Activity 2.3: Using Dominoes to Help Explain the Action Potential.

Do Activity 2.4: Demonstrating Simple Behavior: Patellar, Pupillary and Plantar Reflexes.

Select from Question for Discussion/Critical Thinking

 

Show pictures, slides, models or actual sections through the spinal cord and brain to illustrate gray, white and reticular matter.

Use a mannequin, slides, pictures, other organisms or students to demonstrate axes and aspects.

Show an excerpt of The Behaving Brain from the Discovering Psychology series dealing with organization of the nervous system and the peripheral nervous system or project transparencies or slides of the organization of the nervous system, peripheral nervous system, effects of sympathetic and parasympathetic stimulation.

Do Activity 3.1: The Autonomic Nervous System or do Activity 3.2 Physiological Effects of Trying to Relax or have students take their pulses, then start a surprise quiz and have them take their pulses again.  Ask them to account for the difference in pulse rates.  

Do Activity 3.3: Hands-On Demostration of the Triune Brain Model

Select from Questions for Discussion/Critical Thinking

 

Use a bathing cap with the outline of the brain drawn on it, transparencies, pictures and models to show anatomy of the brain.

Show excerpts from "The Enlightened Machine," the first program from The Brain series or another of the programs that are available exploring anatomy and physiology of the brain.

Have students examine the brain close-up whether using models, preserved whole brains and half-brains sealed in plastic bags or doing a dissection.

Use Laboratory Activity 4.1: How is brain structure related to function? or have students construct a brain model as suggested by C. Wilson and D.K. Marcus (1992).

Select from Questions for Discussion/Critical Thinking

 

Show Language and Speech: Broca and Wernicke's Areas and Split Brain (Modules 3 and 4 from The Brain series).

Do PsychSim: Hemispheric Specialization or do Activity 5.1 Cerebral Lateralization.

Have students read J. Levy's (May 1985) "Right Brain, Left Brain: Fact or Fiction," a Psychology Today article or an excerpt from it in Readings in Psychology (1992).

Select from Questions for Discussion/Critical Thinking

 

Show "The Feedback Cycle" and/or "Hormonal Control" (Programs 4 and 6 from the TV Ontario instructional television series Homeostasis).

Use transparencies, pictures, slides and models to show endocrine glands.

Have students read Doreen Kimura's "Sex Differences in the Brain" from the September 1992 Scientific American or do Issue 1: Are Gender Differences Routed in the Brain? in Brent Slife's Taking Sides (1994).

Select from Questions for Discussion/Critical Thinking

 

Show Alzheimer's Disease (Teaching Module 16 from The Mind series)

Use transparencies, slides, pictures or video laser disk film clips to show key genetic processes.

Do Activity 7.1: Individual Differences in Biological Bases of Behavior

Select from Questions for Discussion/Critical Thinking