Physics Laboratory Experiments (8th Edition)
Solutions and explanations
The Scientific Method and Thought
Experimental Uncertainty (Error) and Data Analysis
Measurement Instruments (Mass, Volume, and Density)
(GL) Simple Pendulum Parameters (Angle, Mass, Length, and Damping)
(TI-GL/CI) Uniformly Accelerated Motion: Measurement of g
The Addition and Resolution of Vectors: The Force Table
(TI-GL/CI) Newton's Second Law: The Atwood Machine
(TI/CI) Conservation of Linear Momentum
(GL) Projectile Motion: The Ballistic Pendulum
Centripetal Force
(TI/CI) Friction
(GL) Work and Energy
Potential Energy of a Spring
(GL) Torques, Equilibrium, and Center of Gravity
(GL) Simple Machines: Mechanical Advantage
(TI/CI) Simple Harmonic Motion
Temperature and Thermometer Calibration
The Thermal Coefficient of Linear Expansion
Specific Heats of Metals
Archimedes' Principle: Buoyancy and Density
Fields and Equipotentials
(TI/CI) Ohm's Law
The Measurement of Resistance: Ammeter-Voltmeter Methods and Wheatstone Bridge Method
The Temperature Dependence of Resistance
(TI/CI) Resistances in Series and Parallel
Joule Heat
The RC Time Constant (Manual Timing)
(TI/CI) The RC Time Constant (Electric Timing)
Reflection and Refraction
Spherical Mirrors and Lenses
(TI) Polarized Light (CI) Malu's Law
The Prism Spectrometer: Dispersion and the Index of Refraction
Line Spectra and the Rydberg Constant
(TI) The Transmission Diffraction Grating: Measuring the Wavelengths of Light (CI) Single-Slit and Double-Slit Diffraction
Detection of Nuclear Radiation: The Geiger Counter
Radioactive Half-Life
The Absorption of Nuclear Radiation