– SUMMER 2019
(sections 2637, 4051)


[ Download Course Materials ] [ Course Outline ]



54.00 Lecture Hours, 54.00 Lab Hours

Prerequisite: Satisfactory completion of ANAT 125 and CHEM 143)

Study of physiological principles, function, and homeostasis of the human body in health and disease; at the biochemical, cellular, tissue, organ, and system levels: integumentary, skeletal, muscular, nervous, endocrine, cardiovascular, lymphatic, respiratory, urinary, digestive, and reproductive. Includes cellular communication, sensory reception, and neural and hormonal control: body movement, oxygen and nutrient delivery, immunity, fluid and electrolyte balance, metabolism and reproductive function.
Intended primarily for Nursing, Allied Health, Kinesiology, and other health related majors. Field trips are not required. (A-F or P/NP)
Transfer: (CSU, UC) (CC: BIOL 60; BIOL 60 + BIO 10 = PHYSO 101 + ANAT 125) General Education: (MJC-GE: A) (CSU-GE: B2, B3) (IGETC: 5B, 5C)

Instructor David G. Ward, Ph.D.
Office: Science Community Center Rm. 239; Phone: Office 575-6752 (voice mail only)
e-mail: or



Office Hours:






by arrangement

by arrangement

by arrangement

by arrangement



Textbooks / Material Required:

Ward, D. G. (2018) Synopsis of Physiology for Allied Health. Available free from my website:

Ward, D. G. (2018) Laboratory Exercises for Human Physiology. Available free from my website:

Expected Learning Outcomes:

Upon satisfactory completion of this course, the student should be prepared to

  1. Define homeostasis, and explain how homeostasis is maintained in cells, in organs, and in the body.
  2. Explain how cells communicate with and control each other, using neural, humoral, and cellular signaling.
  3. Describe key functions of the major organ systems and explain how they are integrated and regulated.
  4. Explain how disease states critically involve abnormal cellular communication, homeostatic control, and metabolism in organ systems.
  5. Apply the scientific method, analyze experimental data, and interpret biomedical literature, to solve problems in physiology and medicine.

Grading: Grades are assigned based on points earned in written exams, laboratory exercises, summaries of current research, and a final exam as follows (also see course outline):

  1. 630 points – Exams 1-7 (90 points total for each exam: 70 Scantron questions [Scantron® 882 required], 70 points; 20 fill-in questions, 20 points.) All exams, except the final, are in SCC 210.
  2. 125 points – Quizzes in Lecture (except first) day (5 points for each of 25 lecture meetings.
  3. 125 points – Completion of the laboratory exercises, and turning in answers to discussion questions for each lab meeting (except first day) (7 points each for the next 17 lab meetings, 6 points for last lab meeting).
  4. 20 points – Completion of two (2) typed summaries of two (2) peer reviewed journal articles, located using PubMed at the National Library of Medicine. The link to PubMed is on my website and is also listed here:

Each summary must be two (2) pages long, double spaced, and must include the first two (2) pages of the article. Summaries + first two pages of articles are due at a meeting in SCC 210, the day before exam 7. Each student will share their two summaries orally at that meeting, and will be given about 90 sec for each summary. Each summary + first two pages of article is worth 10 points.  The assignment is described more the first day of class.

  1. 100 points – Comprehensive Final exam (100 Scantron questions – I will cut and paste 20 Scantron questions from exams 1-2 and 15 Scantron questions from exams 3-6); There are no fill-in questions on the final [Scantron® 882 required]. The final exam is in SCC 227.
  2. Exams cannot be made up.
  3. grade distribution:

A: 89.5 % -

100 %


895 -

1000 points

B: 79.5 % -

89.4 %


795 -

894 points

C: 69.5 % -

79.4 %


695 -

794 points

D: 59.5 % -

69.4 %


595 -

694 points

F: 00.0 % -

59.4 %


000 -

594 points

Academic Integrity: The academic senate at MJC shares the original jurisdiction for conduct violations in the area of academic integrity.

"The grading of a student’s work rests on the fundamental idea that an instructor is evaluating a student’s own work, so cheating or plagiarism demonstrates a failure to complete this most basic requirement of any course. Thus, a faculty member may administer academic consequences for violating the Academic Integrity Policy ranging from partial credit to an F on the assignment or exam. The instructor may also consider that a student’s violation of academic integrity should be a consideration for disciplinary measures. Disciplinary action for violating academic integrity is administered by the Student Discipline Officer under Board Policy 5500 Standards of Conduct. “

Classroom environment: Students are entitled to and deserve a classroom environment that is safe and conducive to learning.  Disruptive behaviors are not permitted; this includes, but is not limited to, talking and using cell phones when not integral to the class, or challenging biohazard protocols. Students are required to obey generally accepted protocols for handling sharps and biohazardous fluids and materials. 

Cell phones and wrist devices: Turn off and do not use cell phones and wrist devices unless their use is integral to the class. In addition, use of a cell phone or a wrist devices for any reason during an exam will result in zero (0) points for that exam (SME Policy).

Eating and drinking are not permitted in the classrooms nor in the lab rooms.

Attendance: It is the responsibility of the student to drop a course that she/he are no longer attending. However, the instructor may drop a student after two consecutive days of non-attendance unless arrangements are made in advance. Avoid absences and leaving early.

Suggestions for success:

  1. Establish study groups.
  2. Study a small amount of material at a time.
  3. Visualize physiological processes by drawing diagrams.
  4. Answer all Quiz Yourself and Supplemental Practice questions.