Academic Standards
3.2.P.B1: Force & Motion of Particles and Rigid Bodies
3.2.P.B1.1: Differentiate among translational motion, simple harmonic motion, and rotational motion in terms of position, velocity, and acceleration.
Free-Fall Laboratory
Period of Mass on a Spring
Period of a Pendulum
Simple Harmonic Motion
Torque and Moment of Inertia
3.2.P.B2: Energy Storage and Transformations: Conservation Laws
3.2.P.B2.1: Explain the translation and simple harmonic motion of objects using conservation of energy and conservation of momentum.
2D Collisions
Air Track
Inclined Plane - Sliding Objects
3.2.P.B2.2: Describe the rotational motion of objects using the conservation of energy and conservation of angular momentum.
Inclined Plane - Rolling Objects
3.2.P.B2.3: Explain how gravitational, electrical, and magnetic forces and torques give rise to rotational motion.
3.2.P.B3: Heat/Heat Transfer
3.2.P.B3.1: Analyze the factors that influence convection, conduction, and radiation between objects or regions that are at different temperatures.
3.2.P.B4: Electrical and Magnetic Energy
3.2.P.B4.1: Explain how stationary and moving particles result in electricity and magnetism.
Electromagnetic Induction
Magnetic Induction
3.2.P.B4.2: Develop qualitative and quantitative understanding of current, voltage, resistance, and the connections among them.
3.2.P.B5: Nature of Waves (Sound and Light Energy)
3.2.P.B5.1: Explain how waves transfer energy without transferring matter.
Longitudinal Waves
Ripple Tank
3.2.P.B5.3: Describe the causes of wave frequency, speed, and wave length.
3.2.P.B6: Unifying Themes
3.2.P.B6.1: Use Newton’s laws of motion and gravitation to describe and predict the motion of objects ranging from atoms to the galaxies.
Atwood Machine
Fan Cart Physics
Correlation last revised: 9/16/2020