-
- DISCIPLINE AND COURSE NUMBER:
- PHSC C111
-
- COURSE TITLE:
- Physical Science Lecture
-
- SHORT BANWEB TITLE:
- PHSC Lec.
-
- COURSE AUTHOR:
- Stenger Smith, John D.
-
- COURSE SEATS:
- -
-
- COURSE TERMS:
- 70 = Fall; 30 = Spring; 50 = Summer
-
- CROSS-LISTED COURSES:
-
- PROPOSAL TYPE:
- CC Course Revision
-
- START TERM:
- 30 = Spring, 2012
-
- C-ID:
-
- CATALOG COURSE DESCRIPTION:
- This course covers conceptual topics in physics and chemistry,
with applications to the earth sciences and astronomy, for the
non-science major. Topics such as motion, energy, electricity,
magnetism, waves, atoms, chemistry and chemical reactions are covered.
Not open to students who have completed PHSC 115.
-
GRADING METHOD
- Default:
- Optional:
- S = Standard Letter Grade;A = Audit;P = Pass/No Pass
-
- TOTAL UNITS:
- 3
-
INSTRUCTIONAL METHODS / UNITS & HOURS:
- Method
-
Min Units
-
Min Hours
- Lecture
-
3
-
54
- Lab
-
0
-
0
- Activity
-
0
-
0
- Open Entry/Open Exit
-
0
-
0
- Volunteer Work Experience
-
0
-
0
- Paid Work Experience
-
0
-
0
- Non Standard
-
0
-
0
- Non-Standard Hours Justification:
-
REPEATABILITY
- Type:
- Non-Repeatable Credit
-
- MATERIALS FEE:
- No
-
- CREDIT BY EXAM:
- No
-
- CORE MISSION APPLICABILITY:
- UC Transfer;Associate Degree Applicable (AA/AS);CSU Transfer
-
- STAND-ALONE:
- No
-
PROGRAM APPLICABILITY
- Required:
-
- Elective:
-
General Education ()
General Sciences (AA Degree Program)
General Sciences AA (AA Degree Program)
Liberal Arts: Mathematics & Science (AA Degree Program)
-
GENERAL EDUCATION APPLICABILITY
- Local:
-
CC GE Area I: Natural Science = Physical Sciences;
- IGETC:
-
IGETC Area 5: Physical and Biological Sciences = 5A: Physical Science without Lab;
- CSU:
-
CSU GE Area B: Physical and its Life Forms(mark all that apply) = B1 - Physical Science;
- UC Transfer Course:
-
- CSU Transfer Course:
-
-
STUDENT LEARNING OUTCOMES Upon completion of the course, the student will be able to
- Solve problems related to motion, momentum and energy using the appropriate theoretical concept.
- Perform an analysis of thermodynamic concepts in order to solve problems in heat transfer and phase change.
- Use the concepts of electromagnetism and wave theory to solve problems related to electricity, magnetism, waves and sound.
- Solve problems involved in basic chemistry, chemical bonding,
reactions and mixtures using the concepts of conservation of mass,
bonding theory and atomic theory.
- Analyze and utilize the scientific method and proper scientific formatting in problem solving.
REQUISITES
- Prerequisite:
-
MATH C050
- Advisory:
-
Reading - 1 Level Prior to Transfer
Writing - 2 Levels Prior to Transfer
-
DETAILED TOPICAL OUTLINE:
Lecture: A. Motion and Equilibrium
1 Aristotle On Motion
2 Galileo’s Concept of Inertia
3 Mass—A Measure of Inertia
4 Net Force
5 The Equilibrium Rule
6 Support Force
7 Equilibrium Of Moving Things
8 The Force of Friction
9 Speed and Velocity
a. Speed
b. Instantaneous speed
c. Average speed
d. Velocity
10 Acceleration
B. Newton’s Laws of Motion
1. Newton’s First Law Of Motion
2. Newton’s Second Law of Motion
3. Forces and Interactions
4. Newton’s Third Law of Motion
5. Vectors
6. Summary of Newton’s Three Laws
C. Momentum and Energy
1. Momentum
2. Impulse
3. Impulse-Momentum Relationship
4. Conservation of Momentum
a. Collisions
5. Energy
a. Work
6. Power
7. Potential Energy
8. Kinetic Energy
a. Work-Energy Theorem
b. Kinetic Energy and Momentum Compared
9. Conservation of Energy
10. Machines
a. Efficiency
D. Thermal Energy and Thermodynamics
1. Thermal Energy
2. Temperature
3. Absolute Zero
4. Heat
5. Quantity of Heat
6. The Laws of Thermodynamics
7. Specific Heat Capacity
8. Thermal Expansion
a. Expansion of Water
E. Heat Transfer and Change of Phase
1. Conduction
2. Convection
3. Radiation
a. Emission of Radiant Energy
b. Absorption of Radiant Energy
c. Reflection of Radiant Energy
d. Cooling at Night by Radiation
4. Newton’s Law Of Cooling
5. Heat Transfer and Change of Phase
6. Evaporation
7. Condensation
8. Boiling
9. Melting and Freezing
10. Energy and Change of Phase
F. Static and Curernt Electricity
1. Electric Force and Charge
a. Conservation of Charge
2. Coulomb’s Law
a. Charge Polarization
3. Electric Field
4. Electric Potential
5. Voltage Sources
6. Electric Current
a. Direct Current and Alternating Current
7. Electrical Resistance
8. Ohm’s Law
a. Electric Shock
9. Electric Circuits
a. Series Circuits
b. Parallel Circuits
c. Parallel Circuits and Overloading
d. Safety Fuses
10. Electric Power
G. Magnetism and Electromagnetic Induction
1. Magnetic Poles
2. Magnetic Fields
3. Magnetic Domains
4. Electric Currents and Magnetic Fields
a. Electromagnets
b. Superconducting Electromagnets
5. Magnetic Forces on Moving Charges
a. Magnetic Force on Current-Carrying Wires
b. Electric Meters
c. Electric Motors
6. Electromagnetic Induction
a. Faraday’s Law
7. Generators and Alternating Current
8. Power Production
9. The Transformer—Boosting or Lowering Voltage
10. Field Induction
H. Waves and Sound
1. Vibrations and Waves
2. Wave Motion
a. Wave Speed
3. Transverse and Longitudinal Waves
4. Sound Waves
a. Speed of Sound
5. Reflection of Sound
6. Refraction of Sound
7. Forced Vibrations
8. Resonance
9. Interference
a. Beats
b. Standing Waves
10. Doppler Effect
11. Wave Barriers And Bow Waves
12. Shock Waves and the Sonic Boom
13. Musical Sounds
a. Musical Instruments
I. Light Waves
1. Electromagnetic Spectrum
2. Transparent and Opaque Materials
3. Color
a. Selective Reflection
b. Selective Transmission
c. Mixing Colored Lights
d. Mixing Colored Pigments
e. Why the Sky Is Blue
f. Why Sunsets Are Red
g. Why Clouds Are White
4. Diffraction
5. Interference
a. Interference Colors by Reflection from Thin Films
6. Polarization
J. Atoms and Periodic Table
1. The Elements
2. Atoms Are Ancient and Empty
3. Protons and Neutrons
4. Isotopes and Atomic Mass
a. Figuring Physical Science: Calculating Atomic Mass
5. The Periodic Table
6. Periods and Groups
K. Elements of Chemistry
1. Chemistry: The Central Science
2. The Submicroscopic World
3. Physical and Chemical Properties
4. Determining Physical and Chemical Changes
5. Elements to Compounds
6. Naming Compounds
7. Chemical Equations
a. Balancing Unbalanced Equations
L. Mixtures
1. Most Materials Are Mixtures
a. Mixtures Can Be Separated By Physical Means
2. The Chemist’s Classification of Matter
3. Solutions
4. Purifying the Water We Drink
5. Desalination
6. Wastewater Treatment
a. Advanced Integrated Pond Systems
M. How Atoms Bond
1. Electron-Dot Structures
2. The Formation of Ions
a. Molecules Can Form Ions
3. Ionic Bonds
4. Covalent Bonds
5. Polar Covalent Bonds
6. Molecular Polarity
7. Metallic Bonds
a. We Should Conserve and Recycle Metals
N. Chemical Reaction
1. Reaction Rates
2. Catalysts
3. Energy and Chemical Reactions
a. An Exothermic Reaction Involves a Net Release of Energy
b. An Endothermic Reaction Involves a Net Absorption of Energy
4. Relative Masses of Atoms and Molecules
5. Molar Mass
-
METHODS OF INSTRUCTION--Course instructional methods may include but are not limited to
- Demonstration;
- Discussion;
- In-class writing;
- Lecture;
- Outside reading;
- Peer analysis, critique & feedback;
- Presentations (by students);
- Problem Solving;
- Written work;
- Other Methods: Recitation
-
OUT OF CLASS ASSIGNMENTS: Out of class assignments may include but are not limited to
A. Homework assignments from the relevant chapter, including
participation in the recitation/discussion session. Example:
Students must solve problems on distance, velocity and acceleration and
participate in discussions distinguishing the relationship among these
three terms.
B. Assigned readings from the textbook and/or other sources. Example:
Students must read the relevant chapter on forces and how to analyze
the forces that a person parachuting to earth encounters.
C. Research Paper/Presentation. Example: Students are required to
present a paper on the chemicals found in their household and the
benefits and dangers of each.
D. Critical Analysis of course relevant topics that appear in the
media. Example: Students are required to read two science-based (not
popular media) articles on both sides of the climate change discussion
and present a cogent synopsis, including the strengths and weaknesses of
each paper.
-
METHODS OF EVALUATION: Assessment of student performance may include but is not limited to
A. Exams and Quizzes evaluate the students’ ability to apply
techniques taught in class and apply these techniques in problem
solving.
Example: The first midterm exam requires students to
conceptually solve equations relating to the motion of an object under
the influence of gravity and air resistance.
B. Regular homework
assignments reinforce material learned in class and evaluate the
student’s ability to learn outside the classroom.
Example: A homework assignment covers the conceptual analysis of electric current in the household
C.
Participation in Problem Solving evaluates the student’s ability to
solve problems in a group environment. Example: Students participate
in the analysis of the speed of sound.
-
TEXTS, READINGS, AND MATERIALS: Instructional materials may include but are not limited to
- Textbooks
-
Hewitt, P. G. Suchocki, J., & Hewitt, L. A. . (2012) Conceptual Physical Science., 5th, Addison-Wesley.
-
- Manuals
-
- Periodicals
-
- Software
-
- Other
-
-
- METHOD OF DELIVERY:
-
- Online with some required face-to-face meetings (“Hybrid”);Online course with on ground testing;Face to face;
-
- MINIMUM QUALIFICATIONS:
- Astronomy (Masters Required);Chemistry (Masters Required);Earth Science (Masters Required);Physical Sciences (Masters Required);
-
APPROVALS:
- Origination Date
- 09/23/2011
- Last Outline Revision
-
- 10/14/2011
- Curriculum Committee Approval
-
- 10/14/2011
- Board of Trustees
-
- 11/10/2011
- State Approval
-
- 12/15/2011
- UC Approval
- 50 = Summer 2000
- UC Approval Status
- Approved
- CSU Approval
- 50 = Summer 2000
- CSU Approval Status
- Approved
- IGETC Approval
- 50 = Summer 2000
- IGETC Approval Status
- Approved
- CSU GE Approval
- 50 = Summer 2000
- CSU GE Approval Status
- Approved