A1: conduct appropriate experiments
Diffusion
Pendulum Clock
Real-Time Histogram
Seed Germination
B1: perform vector analysis in one or two dimensions
Feed the Monkey (Projectile Motion)
Golf Range
Uniform Circular Motion
C1: apply vector analysis to solve practical navigation problems
Feed the Monkey (Projectile Motion)
Golf Range
C2: apply the concepts of motion to various situations where acceleration is constant
Atwood Machine
Feed the Monkey (Projectile Motion)
Free-Fall Laboratory
Golf Range
D1: apply Newtonâ??s laws of motion to solve problems involving acceleration, gravitational field strength, and friction
Atwood Machine
Fan Cart Physics
Free-Fall Laboratory
Inclined Plane - Sliding Objects
D2: apply the concepts of dynamics to analyse one-dimensional or two-dimensional situations
Fan Cart Physics
Free-Fall Laboratory
Uniform Circular Motion
E1: analyse the relationships among work, energy, and power
Pulley Lab
F1: use knowledge of momentum and impulse to analyse situations in one dimension
Air Track
F2: use knowledge of momentum and impulse to analyse situations in two dimensions
2D Collisions
G1: use knowledge of force, torque, and equilibrium to analyse various situations
Torque and Moment of Inertia
H1: use knowledge of uniform circular motion to analyse various situations
Uniform Circular Motion
I1: analyse the gravitational attraction between masses
Gravitational Force
Pith Ball Lab
J1: apply Coulombâ??s law to analyse electric forces
Coulomb Force (Static)
Pith Ball Lab
J5: apply the principles of electrostatics to a variety of situations
Coulomb Force (Static)
Pith Ball Lab
K1: apply Ohmâ??s law and Kirchhoffâ??s laws to direct current circuits
Advanced Circuits
Circuits
L1: analyse electromagnetism, with reference to magnetic fields and their effects on moving charges
Electromagnetic Induction
L2: analyse the process of electromagnetic induction
Electromagnetic Induction
Correlation last revised: 9/16/2020