McGraw-Hill OnlineMcGraw-Hill Higher EducationLearning Center
Student Center | Instructor Center | Information Center | Home
Human Body Case Studies
Animation Activities
Study Skills Primer
Additional Readings
Online Case Histories
GetBodySmart
Career Information
Cross-Sectional Miniatlas
Laboratory Exercises
Johnson Lab Explorations
BioCourse.com
Essential Study Partner
Message Board
Chapter Summary
Chapter Objectives
Case Studies
Critical Thinking Exercises
Internet Activities
Chapter Weblinks
Study Guide
Crossword Puzzles
Flashcards
Labeling Exercises
True or False Quiz
Multiple Choice Quiz
Feedback Multiple Choice Quiz
Concentration
Feedback
Help Center


Human Physiology, 7/e
Stuart I Fox, Pierce College
Heart and Circulation

Chapter Objectives

After studying this chapter, students should be able to . . .


1.

Describe the general functions of the major components of the circulatory system.

2.

Describe the composition of blood plasma and the physical characteristics and functions of the formed elements of the blood.

3.

Identify the chemical regulators of blood cell production and describe the process of erythorpoiesis.

4.

Describe the ABO system of red blood cell antigens and explain the significance of the blood types.

5.

Explain how a blood clot is formed and how it is ultimately destroyed.

6.

Explain how the acid-base balance of the blood is affected by carbon dioxide and bicarbonate, and describe the roles of the lungs and kidneys in maintaining acid-base balance.

7.

Describe the path of the blood through the heart and the function of the atrioventricular and semilunar valves.

8.

Describe the structures and pathways of the pulmonary and systemic circulations.

9.

Describe the structures and pathways of electrical impulse conduction in the heart.

10.

Describe the electrical activity in the sinoatrial node and explain why this tissue functions as the heart’s normal pacemaker.

11.

Relate the time involved in the production of an action potential to the time involved in the contraction of myocardial cells and explain the significance of this relationship.

12.

Describe the pressure changes that occur in the vetricles during the cardiac cycle and relate these changes to the action of the valves and the flow of blood.

13.

Explain the origin of the heart sounds and state when in the cardiac cycle these sounds are produced.

14.

Explain the cause of each wave in an electrocardiogram and relate these waves to other events in the cardiac cycle.

15.

Compare the structure of an artery and vein, and explain how the structure of each type of vessel relates to its function.

16.

Describe the structure of capillaries and explain the physiological significance of this structure.

17.

Explain how atherosclerosis may develop and comment on the significance of this condition.

18.

Define ischemia and discuss the possible causes of myocardial ischemia.

19.

Describe some common arrhythmias that can be detected with an ECG.

20.

Describe the components and functions of the lymphatic system.








Copyright2002 McGraw-Hill Higher Education
Any use is subject to the Terms of Use and Privacy Notice.
McGraw-Hill Higher Education is one of the many fine businesses of The McGraw-Hill Companies.