A: Transformers
A.4: evaluate transfers of energy from one form to another
2D Collisions
B: Momentum
B.1: analyse the relationship between impulse and linear momentum
2D Collisions
B.2: analyse collisions in two dimensions using the concepts of
B.2.1: conservation of momentum
2D Collisions
Air Track
B.2.2: conservation of energy
2D Collisions
Air Track
B.3: analyse angular momentum and factors affecting it
Torque and Moment of Inertia
B.4: explain the law of conservation of momentum as it relates to
B.4.1: angular momentum
2D Collisions
Torque and Moment of Inertia
D: Waves and Vibrations
D.1: analyse waves with reference to their properties and using the universal wave equation
Refraction
Ripple Tank
D.2: analyse wave interactions and their applications
Longitudinal Waves
Refraction
Ripple Tank
Sound Beats and Sine Waves
E: Electricity and Magnetism
E.2: demonstrate principles of electromagnetic induction
Electromagnetic Induction
E.3: demonstrate the principles involved in electrical circuits
Advanced Circuits
Circuits
Electromagnetic Induction
E.4: analyse the operation and applications of motors, alternators, and generators
Electromagnetic Induction
Correlation last revised: 9/16/2020