Note: This page is for reference only. The
links on this page do not work, and are not intended to work.
Your DVD's have menus with the same links, and
contain the actual video clips. When you run your DVD's as instructed, the
links you will see there do work.
Physics I Disk 0
Video Experiments; Introduction to Graphs, Rates, Linearization;
Uniformly Accelerated Motion, Sets 1 and 2
Video Experiment Clips
: Introductory motion and timing
experiments, video version
Introduction to Graphs, Rates, Linearization
: How to describe
graphs; the meaning of rate; linearizing data
Uniformly
Accelerated Motion: Concepts of Uniformly Accelerated Motion; Intro Prob Sets
1-2
Physics I Disk #1 is Combined Physics, Precalculus, Calculus CD
Physics I Cd #2
Introduction; Classes 1-6
Introduction to course View for
overview of the course; should be viewed with early assignments.
Class #1: Velocity and Acceleration (ball rolling down incline)
Class #2: Position Graph from Velocity Graph (constant
acceleration)
Class #3: Inferences from a constant-acceleration v vs. t graph
Class #4: Inferences from Initial and Final Velocities on a Known
Time Interval, Const Accel
Class #5:
Lab Exercise; The Use of Flow Diagrams in Problem-Solving
Class Notes #06: Acceleration vs. Ramp Slope Experiment; Deriving Equations of
Motion aided by Diagrams
Disk EPS01
Experiments and Problem Sets
Refined
Pendulum Techniques Refined Methods for Timing with a Synchronized Pendulum
(1/4-cycle, 3/4-cycle, etc.)
EPS02: Set 3 Problems on Energy
Set 3 Introduction: Work-Energy
Theorem from Newton's 2d Law and Equations of Motion
Set 3
Clip #1: Work done by pushing object on pushed object; work by pushed object on
pushing object
Set 3
Clip #2: Examples of work; Work-Energy Theorem
Set 3
Clip #3: Work-Energy with and without Dissipative Forces
Set 3
Clip #4: Work by known force on known mass during given time interval
Set 3
Clip #5: Work-Energy with KE calculations
Set 3
Clip #6: A two-mass system accelerating due to gravitational force on one
object
Set 3
Clip #7: Work Done by a Rubber Band
Set 3
Problems 1-3: Force, Work, Displacement Relationships
Set 3
Problems 7-9: Work-Energy details for accelerating object, first steps
Set 3
Problems 10-12: Work-Energy details for accelerating object
Set 3
Problems 15-16: General Application of Energy Conservation Formulation
Set 3
Problems 17-18: Specific Application of Energy Conservation Formulation
Set 3
Problems 24-26: Application to Gravitational PE in presence of Nonconservative
Forces
Physics I CD #3
Video Clips #07-#12
Physics I CD #4
Class Notes #17: Projectiles; Impulse-Momentum Theorem
Physics I CD #5
Class #19a: More Momentum; Impulse-Momentum
Class #21:
Forces; Projectile Motion
Class #22: Terminal Velocity, Momentum Conservation in Two
Dimensions
Physics I Cd #6
Class #23: Energy, Vectors and Projectile Motion
Class #24: Energy and Orbits
Class #26: Orbital Velocities, Energies
Class #27: Newton's Law of Universal Gravitation; Orbital and
Escape Velocities
Physics I CD #7
Class #28: Rotational Motion
Class #29: Stable and Unstable Equilibrium; Rotational KE
Class #30: Moment of Inertia
Physics I CD #8
#32: Cantilevered Beam:
Statics and Dynamics
#33: Leaning Ladder;
Introduction to Simple Harmonic Motion
#34: Test Review (includes
practice test)
#35: SHM of floating
objects
#36: Velocity,
Acceleration and Energy in SHM
Physics I CD #9
#37:
Miscellaneous Problems
#38: Review I
#39: Review II
#40: Review
III