Chapter 1
Chapter 2
Chapter 3
Chapter 4
Miscellaneous
100

What is the difference between a vector quantity and a scalar quantity?

A vector quantity is described with magnitude and direction, whereas a scalar quantity is only described with magnitude.

100

A force

A push or a pull on an object, or an action capable of accelerating an object

100

Momentum and Impulse

Momentum: directly proportional to mass and velocity

Impulse: causes a change in momentum

100

Work

Something that is done on an object when the object moves in the same direction in which the force is exerted

100

Free Body Diagram

A diagram which shows all the forces acting on an object

200

Acceleration and speed

Acceleration involves both change in direction, change in speed, or both; speed is how fast an object is moving

200

Inertia

The tendency of an object to maintain its state of rest or of uniform velocity in a straight line

200

Law of Conservation of Momentum

In the absence of an external force, the momentum of a system remains unchanged

200

Power

The rate at which work is done

200

Weight VS. Mass

Weight: The force or pull of gravity acting on an object

Mass: The property of an object itself

300

What is the difference between distance and displacement?

Distance is the total amount an object traveled, whereas displacement is the change in position of an object

300

Newton's Laws of Motion

Law 1: An object at rest/in motion stays at rest/in motion unless acted on by an outside force

Law 2: The acceleration of an object is directly proportional to the net force acting on it, and is inversely proportional to the object's mass

Law 3: Every action has an equal and opposite reaction; every force has an equal and opposite force

300

Elastic Collisions

The colliding objects rebound without lasting deformation or the generation of heat; momentum is conserved

300

Kinetic Energy

Energy due to an object's motion

300

Deceleration

When an object is slowing down, or the velocity is decreasing over time

400

Constant velocity

An object traveling in a straight line at a constant speed

400

The Normal Force and Friction Force

The Normal Force: Contact force is perpendicular to the common surface of contact

Friction Force: A force that is opposite the direction of the object's motion

400

Inelastic Collisions

The colliding objects become entangled, or stick together during the collision; momentum is conserved

400

Potential Energy

Energy due to an object's position

400

Mechanical Energy

The energy of moving things

500

Linear motion

Objects that move without rotation in a straight line path

500

Tension Force and Air Resistance

Tension Force: When a cord or string pulls on an object

Air Resistance: Friction created in the atmosphere when an object moves through it

500

Explosions

When two objects move away from each other in opposite directions after initially starting at rest; momentum is conserved

500

Gravitational Potential Energy and Elastic Potential Energy

Gravitational Potential: Energy due to an object's height

Elastic Potential: Energy due to how much an object is being stretched or pressed

500

List all the scalar quantities and vector quantities we have learned so far

Scalar: Distance, speed, acceleration, work, power, energy

Vector: Displacement, velocity, momentum