Students will how to solve all types of problems using the kinematic equations.
Learn about the relationship between velocity and position for a swimmer.
Learn about the relationship between position, velocity, and acceleration for two objects in one-dimensional motion.
Learn about the relationship between position and velocity for a model rocket during launch and in free-fall.
Demonstrates how air resistance causes objects to fall much more slowly than they should theoretically.
Goes through a more complex example problem of how gravity affects the motion of a thrown object.
Part 2 of Motion Problems. Goes through a more complex example problem of how gravity affects the motion of a thrown object.
Shows an example problem of how gravity acts in position-time scenarios.
Use the "big three" equations to calculate the velocity of an accelerating object at a given time, primarily free-falling objects.
A list of student-submitted discussion questions for Using the Kinematic Equations.
A review of the terms distance, displacement, velocity, speed, and acceleration. Also looks at graphs of motion, using the kinematic equations, projectile motion, and free fall.