Describe and analyze projectile motion in two dimensions using mathematical models and graphs. Predict how a projectile's velocity and acceleration components change throughout its trajectory, and …

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Unit 1 Kinematics Unit 2 Force and translational dynamics Unit 3 Work, energy, and power Unit 4 Linear momentum

Use a simulation to explore the motion of a projectile. Apply the kinematic equations to objects moving in two dimensions with constant acceleration in each dimension. Discover the independence of a …

Practice calculating acceleration, velocity, displacement, and time from word problems using kinematic equations

AP®︎/College Physics 1 Science> AP®︎/College Physics 1> Kinematics> Motion in 2D

Angular displacement, angular velocity, and angular acceleration around one axis demonstrate analogous mathematical relationships in the rotational kinematic equations.

Learn what the kinematic equations are and how you can use them to analyze scenarios involving constant acceleration.

Distinguish between scalar and vector quantities. Learn how to represent and combine vectors in one dimension.

Since the kinematic equations apply to scenarios involving uniform acceleration, we can conclude that the ball fell with uniform acceleration. Many similar experiments have reproduced the same result: …