|
Class
|
Name
|
|
|
|
|
PHY 100 & 103
|
Newtons 2nd Law & Atwood
|
|
PHY 100 & 103
|
Restoring Forces & Spring Constant (F=-kx), Vibrations (cycle, per
|
|
PHY 100 & 103
|
Density and Buoyancy
|
|
PHY 100 & 103
|
Boyles Law: PV=C (pressure, ideal gas)
|
|
PHY 100 & 103
|
DC Circuits I, II, & III
|
|
PHY 100 & 103
|
Speed of Sound (resonance, standing waves, wavelength, interferenc
|
|
PHY 100 & 103
|
Measurement Techniques
|
|
PHY 100 & 103
|
Torque Forces - Balancing and Equilibrium
|
|
PHY 100 & 103
|
Hookes Law
|
|
PHY 100 & 103
|
Blood Pressure
|
|
PHY 100 & 103
|
Simple Pendulum
|
|
PHY 100 & 103
|
Inclined Plane
|
|
PHY 100 & 103
|
Force Tables
|
|
PHY 100 & 103
|
Comparison and Relationship between Different Energies
|
|
PHY 100 & 103
|
Buoyancy in Air
|
|
PHY 100 & 103
|
Freefall of a Mass due to Gravitational Field
|
|
PHY 100 & 103
|
Specific Heat Capacity (temperature, heat energy, heating curve)
|
|
PHY 100 & 103
|
Heating Curve of Water
|
|
PHY 100 & 103
|
Adjustable Inclined Plane
|
|
PHY 100 & 103
|
Work and Power
|
|
PHY 100 & 103
|
Density
|
|
PHY 200 & 230
|
Centripetal Force (Tube)
|
|
PHY 200 & 230
|
Design Inclined Plane and Projectile Motion
|
|
PHY 200 & 230
|
Buoyancy
|
|
PHY 200 & 230
|
Boyles Law
|
|
PHY 200 & 230
|
Speed of Sound
|
|
PHY 200 & 230
|
Centripetal Force (CENCO)
|
|
PHY 200 & 230
|
Simple Harmonic Motion - Mass on a Spring
|
|
PHY 200 & 230
|
Measurement Techniques
|
|
PHY 200 & 230
|
Uniformly Accelerated Motion on an Inclined Plane
|
|
PHY 200 & 230
|
Addition of Vectors: Force Tables
|
|
PHY 200 & 230
|
Acceleration in Freefall: Spark Tape
|
|
PHY 200 & 230
|
Specific Heat Capacity and Heat of Fusion
|
|
PHY 200 & 230
|
Newtons law:F=ma; Atwood
|
|
PHY 200 & 230
|
Ballistic Pendulum/Projectile Motion
|
|
PHY 200 & 230
|
Conservation of Spring and Gravitational Potential Energy
|
|
PHY 200 & 230
|
Force Constant, Pendulum, Simple Harmonic Motion
|
|
PHY 200 & 230
|
Heating Curve of Water
|
|
PHY 200 & 230
|
Torques and Rotational Equilibrium
|
|
PHY 200 & 230
|
Specific Heat of Metals
|
|
PHY 200 & 230
|
Rotational Inertia
|
|
PHY 200 & 230
|
Buoyancy in Water
|
|
PHY 201 & 231
|
RC Time Constant
|
|
PHY 201 & 231
|
Reflection & Refraction
|
|
PHY 201 & 231
|
Voltmeters and Ammeters
|
|
PHY 201 & 231
|
Alternating-Current LR Circuits
|
|
PHY 201 & 231
|
Equipotentials and Electric Fields
|
|
PHY 201 & 231
|
Electrical Resistance & Ohms Law
|
|
PHY 201 & 231
|
Kirchhoff's Circuit Laws
|
|
PHY 201 & 231
|
Magnetic Fields and Permanent Magnets
|
|
PHY 201 & 231
|
Focal Length of Lenses
|
|
PHY 201 & 231
|
The Tangent Galvanometer
|
|
PHY 201 & 231
|
Alternating-Current RC and LCR Circuits
|
|
PHY 201 & 231
|
Oscilloscope Measurements
|
|
PHY 201 & 231
|
Electrostatic Observations
|
|
PHY 201 & 231
|
Induced Currents and EMFs
|
|
PHY 201 & 231
|
Diffraction Gratings - The Wavelength of Light
|
|
PHY 201 & 231
|
Nuclear Counting
|
|
PHY210
|
Electric Circuits I
|
|
PHY210
|
Electric Circuits II
|
|
PHY210
|
Velocity and Acceleration
|
|
PHY210
|
Force and Acceleration
|
|
PHY210
|
Electric Circuits IV
|
|
PHY210
|
Electric Circuits III
|
|
PHY210
|
Optics: Plane Mirrors
|
|
PHY210
|
Optics: Focal Lengths
|
|
PHY470
|
The Electron Charge-to-Mass Ratio e/m
|
|
PHY470
|
Frank-Hertz
|
|
PHY470
|
Photoelectric effect
|
|
PHY470
|
Milikan oil drop experiment
|
|
PHY470
|
Solid state determination of electron charge
|
|
PHY470
|
Hall Effect
|
