Physics II CD Contents

This is a copy of the contents you will encounter on your disks.  The links will not work on this page.  They will work on the version you will find on the DVD's.

The links on this page are all inactive.  Follow the instructions you were given in Part 3 of the Orientation, the step entitled "A5:  Using your DVDs.".  You will have submitted that document and it will also appear in your Portfolio/Access Page, so you can access the instructions either from the menu or through your Portfolio menu.

CD List

The table of contents for each CD is listed under the respective link.

Physics II CD #0: Introduction; Lectures, Experiments Physics II CD #0: Introduction; Lectures, Experiments

Physics II CD #1:  #'s 3-10 on Fluids, Thermal Energy and Thermodynamics

Physics II CD #2:  #'s 11-17 on Kinetic Theory, Thermodynamics, Waves and Optics

Physics II CD EPS01: Experiments, Prob Sets Disk #1:  Experiments on Fluids, Thermodynamics and Waves; Introductory Problem Set 5 on Fluids and Thermodynamics

Physics II CD #4 (disk 3??):  #'s 18-24 on Optics, Introduction to Electricity and Magnetism

Physics II Cd #4: #'s 25-28 on Electricity and Magnetism

Experiments with Waves, Optics, Electricity and Magnetism

Physics II CD #5: #'s 29-32 on Electricity and Magnetism

Physics II, CD #6: #'s 33-38 on Modern Physics

Physics II CD #0:  Introduction; Lectures, Experiments

Introduction

Introductory Video Experiments

video_experiments/video_experiments.htm: Experiments 1-9

Physics II CD #1:  #'s 3-10

Class Notes #3:  Analyzing Experiments 2 and 4

Class Notes #4:  Pressure and Volume Relationships for an Ideal Gas

Class Notes #5:  Potential and Kinetic Energy Changes in a Fluid

Class Notes #6:  Fluids; Bernoulli's Equation

Class Notes #7:  Bernoulli's Equation

Class Notes #8:  Terminal Velocity results; Bottle Engine intro (thermodynamics)

Class Notes #9:  Bottle Engine:  Work and Energy, Efficiency

Class Notes #10:  Bottle Engine:  States 1, 2 and 3

Physics II CD EPS01:  Experiments and Problem Sets Disk #1

Problem Set 5 (set 54), Fluids and Thermal Energy 

Volume, Temperature, Pressure Experiments (bottle engine)

Wave Experiments (Slinky, Discrete Waves)

Physics II CD #2

Class Notes #11:  Kinetic Theory

Class Notes #12:  Thermodynamics

Class Notes #13:   Introduction to Waves

Class Notes #14:  Harmonics in a String

Class Notes #15:  Doppler Shift

Class Notes #16:  Harmonics of a String; Music

Class Notes #17:  Snell's Law; Ray Tracing; Image Formation

Experiments with Waves, Optics, Electricity and Magnetism

Experiment 10

Experiment 11

Experiment 12

Experiment 13

Experiment 14

Focal Point of a Circular Mirror

Thin Acrylic Lenses

Focusing Water Lenses

Image Formation

Image Formed by Two lenses

Diverging Water Lenses

Focusing through a Cylinderical Bottle

Thread Diffraction Grating

Experiment 16:   Current Flow and Energy

Experiment 17:   Capacitors and Current, Voltage, Energy

Experiment 18:   Effect of Magnetic Fields on Currents, Part I

Experiment 18:   Effect of Magnetic Fields on Currents, Part II

Experiment 19:   Batteries, Circuits and Measurement of Voltage and Current, Part I

Experiment 19:   Batteries, Circuits and Measurement of Voltage and Current, Part II

Experiment 20:  Coulomb's Law

Experiment 21:   Electrostatics (part a)

Electrostatics (part b)

Experiment 23:   Electrical Currents Produce Magnetic Fields

Experiment 24:   Voltage Produced by Magnetic Flux

Physics II CD #4 (disk 3??): #'s 18-24

Class Notes #18:  Focal Points, Image Formation

Class Notes #20:  Focal Distance, Object Distance, Image Distance, Magnification

Class Notes #21:  Interference

Class Notes #22:   Current Flow and Resistance

Class Notes #23:   Series Resistance

Class Notes #24:   Magnetic Field from Pendulum Behavior

Physics II Cd #4:  #'s 25-28

Class Notes #25:   Capacitors and Meters; Flux Change and Voltage

Class Notes #26Coulomb's Law

Class Notes #27:   Coulomb Forces, Energy, Potential Difference

Class Notes #28:   Electric Field

Physics II CD #5:  #'s 29-32

Class Notes #29:   More Electric Fields; Gauss' Law

Class Notes #30:   Field Lines, Equipotential Lines, Capacitance

Class Notes #31:   Capacitors

Class Notes #32:   Some DC Circuits

Physics II, CD #6:  #'s 33-38

Class Notes #33:   Partial Review of E & M

Class Notes #34:   The Bohr Model of the Hydrogen Atom

Class Notes #35:   Energy Levels of the Bohr Atom; Revisiting Induced Charge

Class Notes #36:   Alignment of Magnetic Dipoles

Class Notes #37:   Atomic Structure; Dual Nature of Light

Class Notes #38:   Time Dilation; Revisiting Source of Magnetic Field

University Physics-Specific Topics in Fluids and Thermodynamics

Definition of Pressure, Continuity Equation, Definition of Temperature

Expansion of Lengths, Areas and Volumes with Temperature; Thermal Stress

Specific Heats; Flow of Thermal Energy

Radiation; Ideal Gas Law; Van der Waals correction

Work is the integral of P dV

Force and Potential Energy as a function of Molecular Spacing

Energy in a Solid Crystal Lattice; Distribution of Molecular Speeds

P vs. T graph of Phases of Matter; 3-D Model of Phases

Projections of the 3-D Model

Adiabatic Gas Law

Reversible Processes; Order to Disorder

Entropy; Heat Engines

The Form of a Traveling Sine Wave

The Wave Equation

The Velocity of a Pulse in a String

Velocity of Sound in Liquids, Gases and Solids

Energy Transmitted by a Wave

The Form of a Standing Wave

Sound Waves

Refraction and Dispersion

Polarization

Brewster's Angle

Huygen's Principle and Snell's Law

Image Formation by Mirrors; Real and Virtual Images

Lens-maker's Equation

Interference

Spacing of Interference Maxima

Interference Phenomena

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