Human Anatomy and Physiology I

Faculty
Science & Technology
Department
Biology
Course Code
BIOL 1109
Credits
3.00
Semester Length
15 weeks
Max Class Size
Lecture / Tutorial = 35
Method Of Instruction
Lecture
Lab
Tutorial
Typically Offered
To be determined
Campus
Online

Overview

Course Description
Human Anatomy and Physiology I is an introduction to the study of anatomy and physiology of humans. Cell biology and the biochemistry of cells are examined, and the levels of organization in the human body are studied. The anatomy and physiology of the integumentary, skeletal, muscular, and nervous systems are covered.

Enrolment is usually limited to students in Sport Science programs.
Course Content

1.Structure and function of cells

-The structure and function of cell membranes and various cytoplasmic and nuclear components.
-The preparation of and examination (using a compound microscope) of animal and plant cells.
-An explanation of major cellular processed and their significance to the cell.

2.Introduction to biochemistry

-The chemistry of water
-The chemistry of  carbohydrates, lipids, proteins and nucleic acids

3.Homeostasis

-The definition of the term homeostasis, its importance, and the conditions required to fulfill homeostasis.
-The definitions of the terms internal environment, stress, positive feedback system and negative feedback system, and their roles in homeostasis.
-Examples of homeostatic mechanisms, including negative and positive feedback systems.

4.The organization of the human body beyond the cellular level

-The structure and function of the four tissue types.
-The major body systems, their major organs, and the general function of each organ.
-Directional terms as they relate to the human body.
-The body cavities and their organs.

5.The integumentary system

-The identification and description of the components of the epidermis and the dermis.
-Specialized cells, structures, and glands.

6.The skeletal system

-The basic structure, histology, and components of the human skeleton.
-The structure, physiology, and function of bone.
-The changes in skeletal structure during growth and development (ossification).
-Articulations (joints) with respect to their structures and types of movement allowed.
-The basic mechanical principles of movement as they relate to joints (biomechanics).

7.The muscular system

-The types of movements found in humans as a result of skeletal muscle contraction.
-The identification of the principal muscles and muscle groups and their movements.
-The gross anatomy of muscles and microscopic anatomy of muscle tissue.
-The physiology of muscle contraction.

8.The nervous system

-The structure and function of the parts of the brain, the spinal cord, and major nerves.
-The reflex arc.
-The structure and functioning of the sense organs.

Methods Of Instruction

This course involves four hours per week of classroom instruction and two hours per week of laboratory activity.  Classroom work will consist of lectures, tutorials, and work in small groups.

Means of Assessment

Evaluation will be carried out in accordance with Douglas College policy. The instructor will present a written course outline with specific evaluation criteria at the beginning of the semester. Evaluation will be based on the following:

Evaluation Marks
Class tests and assignments   15-25
Laboratory assignments and quizzes  5-15
Laboratory examination 10-15
Comprehensive examination - midterm  25-35
Comprehensive examination - final 25-35
TOTAL

100

Notes:

1. Laboratory Experiments and Activities

Laboratory work will be assigned each week. The laboratory work must be completed in the week it is assigned. Laboratory experiments and assignments are a compulsory component of this course. A minimum of 50% of the laboratory experiments and assignments must be completed to receive a P or better in the course.


2. Examinations

There will be one midterm and one final examination. The final examination will cover the entire course. If the student achieves a better grade on the final exam than on the midterm examination, the midterm grade will be raised to equal that of the final examination.

 

 

Learning Outcomes

Upon completion of Biology 1109, the student will be able to:

  1. Use a compound microscope, and describe and identify cell and tissue types in the body.
  2. Describe the basic components of an atom and describe the properties of ionic and covalent bonds.
  3. Describe the chemistry and properties of water, and the structure and biological significance of carbohydrates, lipids, proteins and nucleic acids.
  4. Describe the basic principles of homeostasis and negative feedback systems, and provide at least one example of a homeostatic mechanism.      
  5. Describe anatomical structures using appropriate terminology, and specify the locations of various organs and systems.
  6. Describe the components and functions of the integumentary system.
  7. Identify the components of the human skeleton, and describe the structure and growth of long bones.
  8. Describe the types and range of movements of skeletal articulations.
  9. Describe the basic principles of biomechanics.
  10. Describe the location, structure, and functions of the major muscles of the body.
  11. Describe the gross anatomy of muscles and the microanatomy of muscle tissue.
  12. Describe the physiology of muscle contraction.
  13. Describe the components of the nervous system and identify the roles of the major components of the nervous system and associated sensory organs.
Textbook Materials

Students should consult the Douglas College Bookstore for the latest required textbooks and materials. For example, textbooks and materials may include:

Marieb, E.N & Hoehn, K. Human Anatomy & Physiology (Current Edition). Pearson Education Inc.

Douglas College produced manual: Biology 1103/1109: Human Anatomy and Physiology I.

 

 

Requisites

Prerequisites

Courses listed here must be completed prior to this course:

  • No prerequisite courses

Corequisites

Courses listed here must be completed either prior to or simultaneously with this course:

  • No corequisite courses

Equivalencies

Requisite for

Biology 1209

Course Guidelines

Course Guidelines for previous years are viewable by selecting the version desired. If you took this course and do not see a listing for the starting semester / year of the course, consider the previous version as the applicable version.

Course Transfers

Institution Transfer Details Effective Dates
Athabasca University (AU) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = AU BIOL 235 (6) 2014/01/01 to -
Camosun College (CAMO) CAMO BIOL 1XX (4) 2013/01/01 to -
Camosun College (CAMO) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = CAMO BIOL 152 (4) & CAMO BIOL 153 (4) 2013/01/01 to -
Capilano University (CAPU) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = CAPU HKIN 190 (3) & CAPU HKIN 191 (3) 2004/09/01 to -
Capilano University (CAPU) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = CAPU BIOL 112 (4) & CAPU BIOL 113 (4) 2004/09/01 to -
Capilano University (CAPU) CAPU BIOL 112 (4) 2004/09/01 to -
Kwantlen Polytechnic University (KPU) KPU BIOL 1XXX (4) 2005/05/01 to -
Kwantlen Polytechnic University (KPU) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = KPU BIOL 1160 (4) & KPU BIOL 1260 (4) 2005/05/01 to -
Kwantlen Polytechnic University (KPU) KPU BIOL 1XXX (5) 2004/09/01 to 2005/04/30
Langara College (LANG) LANG BIOL 1XXX (3) 2004/09/01 to -
Langara College (LANG) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = LANG BIOL 1190 (3) & LANG BIOL 1191 (3) 2004/09/01 to -
North Island College (NIC) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = NIC BIO 160 (3) & NIC BIO 161 (3) 2005/09/01 to -
Okanagan College (OC) OC BIOL 131 (3) 2005/09/01 to -
Simon Fraser University (SFU) SFU BPK 1XX (3) 2006/09/01 to -
Simon Fraser University (SFU) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = SFU KIN 105 (3) & SFU KIN 1XX (3) 2004/09/01 to 2006/08/31
Simon Fraser University (SFU) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = SFU BPK 105 (3) & SFU BPK 1XX (3) 2006/09/01 to -
Simon Fraser University (SFU) SFU KIN 105 (3) 2004/09/01 to 2006/08/31
Thompson Rivers University (TRU) TRU BIOL 159 (3) 2004/09/01 to 2010/08/31
Thompson Rivers University (TRU) TRU BIOL 1590 (3) 2010/09/01 to 2014/08/31
Trinity Western University (TWU) TWU BIOL 1XX (3) 2018/09/01 to -
Trinity Western University (TWU) TWU BIOL 241 (3) 2004/09/01 to 2018/08/31
University of British Columbia - Okanagan (UBCO) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = UBCO HMKN 190 (3) & UBCO HMKN 191 (3) 2004/09/01 to -
University of British Columbia - Okanagan (UBCO) UBCO BIOL 1st (3) or UBCO HMKN 190 (3) 2004/09/01 to -
University of British Columbia - Okanagan (UBCO) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = UBCO BIOL 131 (3) & UBCO BIOL 133 (3) 2004/09/01 to -
University of British Columbia - Vancouver (UBCV) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = UBCV BIOL 153 (7) 2004/09/01 to -
University of British Columbia - Vancouver (UBCV) UBCV BIOL 111 (3) or UBCV KIN 190 (3) 2004/09/01 to -
University of Northern BC (UNBC) UNBC BIOL 1XX (3) or UNBC HHSC 111 (3) 2004/09/01 to 2011/08/31
University of Northern BC (UNBC) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (4) = UNBC HHSC 111 (4) & UNBC HHSC 112 (4) 2011/09/01 to -
University of Northern BC (UNBC) UNBC HHSC 1XX (3) 2011/09/01 to -
University of Northern BC (UNBC) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = UNBC HHSC 111 (4) & UNBC HHSC 112 (4) 2011/09/01 to -
University of the Fraser Valley (UFV) DOUG BIOL 1109 (3) & DOUG BIOL 1203 (3) = UFV KIN 270 (4) & UFV KIN 272 (4) 2019/09/01 to -
University of the Fraser Valley (UFV) UFV BIO 1XX (3) 2004/09/01 to -
University of the Fraser Valley (UFV) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = UFV KPE 170 (3) & UFV KPE 270 (3) 2004/09/01 to 2006/08/01
University of the Fraser Valley (UFV) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = UFV KPE 170 (4) & UFV KPE 1XX (2) 2006/09/01 to -
University of Victoria (UVIC) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = UVIC EPHE 141 (1.5) & UVIC EPHE 241 (1.5) 2013/09/01 to 2021/04/30
University of Victoria (UVIC) UVIC BIOL 1XX (1.5) 2008/09/01 to 2013/08/31
University of Victoria (UVIC) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = UVIC PE 141 (1.5) & UVIC PE 241B (1.5) 2004/09/01 to 2006/08/31
University of Victoria (UVIC) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = UVIC EPHE 141 (1.5) & UVIC EPHE 241B (1.5) 2008/09/01 to 2013/08/31
University of Victoria (UVIC) UVIC EPHE 1XX (1.5) 2008/09/01 to -
University of Victoria (UVIC) No credit 2006/09/01 to 2008/08/31
University of Victoria (UVIC) UVIC PE 1XX (1.5) 2004/09/01 to 2006/08/31
Vancouver Community College (VCC) DOUG BIOL 1103 (3) or DOUG BIOL 1109 (3) = VCC BIOL 1120 (4) 2020/09/01 to -
Vancouver Island University (VIU) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = VIU BIOL 151 (3) & VIU BIOL 152 (1) & VIU BIOL 153 (3) & VIU BIOL 154 (1) 2004/09/01 to 2010/08/31
Vancouver Island University (VIU) DOUG BIOL 1109 (3) & DOUG BIOL 1209 (3) = VIU BIOL 156 (4) & VIU BIOL 157 (4) 2004/09/01 to 2010/08/31

Course Offerings

Summer 2021

CRN
Days
Dates
Start Date
End Date
Instructor
Status
Location
22124
Mon Wed Tue
10-May-2021
- 09-Aug-2021
10-May-2021
09-Aug-2021
Harper
James
Waitlist
Online
BIOL 1109 001 is restricted to SPSC and BPEC students until March 24 at 10:00am and includes a 2-hour lab as part of the scheduled class times.


Students should plan to be available on-line at scheduled course times. This course will include synchronous on-line activities.
Max
Enrolled
Remaining
Waitlist
18
18
0
11
Days
Building
Room
Time
Mon Wed
12:30 - 14:20
Tue
14:30 - 16:20
CRN
Days
Dates
Start Date
End Date
Instructor
Status
Location
23537
Mon Wed
10-May-2021
- 09-Aug-2021
10-May-2021
09-Aug-2021
Harper
James
Waitlist
Online
BIOL 1109 002 is restricted to SPSC and BPEC students until March 24 at 10am


Students should plan to be available on-line at scheduled course times. This course will include synchronous on-line activities.
Max
Enrolled
Remaining
Waitlist
17
17
0
9
Days
Building
Room
Time
Mon Wed
12:30 - 14:20
Wed
14:30 - 16:20