Untitled document
Students will be able to:
1. Define the physics quantities used in mechanics including: displacement, velocity,
acceleration, force, energy, work, power, momentum, and impulse.
2. Identify the major unit systems and convert between them.
3. Organize and interpret written problem statements.
4. Describe basic concepts in mechanics and selected additional physics topics.
5. Generate and/or interpret graphs of physics quantities related to mechanics.
6. Generate free body diagrams and use them in the correct application of Newton's Laws.
7. Apply the equations of mechanics to the solution of selected simple physics problems.
8. Apply interpersonal skills to work in teams to solve physics problems.
Untitled document
I. Problem Solving Tools, Strategies, and Algorithms
A. Interpretation of written problem statements
B. Written description or analysis of applicable physics concepts
C. Choice of appropriate mathematical models and equations
D. Organization of information and assignment of variables
E. Interpretation and generation of diagrams and graphs
II. Units and Dimensional Analysis
A. The international system (SI)
B. The centimeter, gram, second system (CGS)
C. The British engineering system (BE)
D. Common metric prefixes
E. Conversion of units
F. Unit consistency in equations
III. One-Dimensional Kinematics
A. Concepts, definitions, and units of displacement, velocity and acceleration
B. Graphs of displacement, velocity and acceleration versus time
C. Slopes of displacement and velocity versus time graphs and areas under velocity and
acceleration versus time graphs
D. Equations for uniformly accelerated motion in one dimension
E. Freefall body problem analysis
IV. Vectors and Trigonometry
A. Scalar and vector quantities
B. Components of vectors and right triangle trigonometry
C. Sums of vectors
V. Two-Dimensional Kinematics
A. Separation of coordinate directions
B. Equations of two-dimensional kinematics
C. Projectile motion
VI. Forces and Newton's Laws of Motion
A. Concepts, definitions, and units of mass, force and weight
B. Newton's third law and force interactions between objects
C. Newton's first law and the construction of free body diagrams
D. One- and two-dimensional statics
E. Newton's second law and free body diagrams with acceleration
F. One- and two-dimensional linear dynamics
VII. Work, Energy, and Power
A. Concepts, definitions, and units of work, energy, and power
B. Calculation of work done using force and displacement data and graphs
C. Kinetic and potential energy
D. Conservative and non-conservative forces
E. Conservation of energy
F. Computation of power
Optional Physics Topics:
Faculty should choose 2-6 additional topics of interest to broaden exposure and encourage further investigations, such as:
I. Impulse and momentum
II. Newton's universal law of gravity
III. Rotational kinematics and dynamics
IV. Simple harmonic motion
V. Fluids, statics and dynamics
VI. Temperature, heat, thermodynamics
VII. Waves and sound
VIII. Electricity and magnetism
IX. Optics
X. Superconductivity
XI. Radioactivity
XII. Fusion and Fission
XIII. Special relativity
XIV. Subatomic particles
Untitled document
Physics. 11th ed. Cutnell, John and Johnson, Kenneth. Wiley. 2018
Essentials of College Physics. Serway, Raymond and Vuille, Chris. Cengage Learning. 2007 (Classic)
Instructor prepared materials