A force is defined as a push or a pull.
The tendency of an object to remain at constant velocity.
Any frame in which Newton's Laws are valid.
The amount of matter in a given body.
The name given to a unit of force. One Newton is enough force to cause a 1 KG body to accelerate at a rate of one meter per second per second.
First Law: If F = 0 then a = 0 and v =constant
Second Law: F = ma
Third Law: F_{AB} = - F_{BA}
The gravitational force exerted on a given mass.
A diagram of all forces acting upon a given object.
The force caused by two bodies in direct contact that is perpendicular to the plane of contact.
The force caused by the electrical interaction between two bodies in direct contact that is parallel to the plane of contact and in the opposite direction of the motion of one object relative to the other.
The force felt by a rope or cable that transmits another force.
The frictional force on two bodies at rest.
Defines the proportionality between F_{N} and F_{s} for two given materials.
The frictional force on two bodies in motion relative to one another.
Defines the proportionality between F_{N} and F_{k} for two given materials.
The acceleration, directed toward the center of a circle, which causes uniform circular motion.
The force, directed toward the center of a circle, which causes uniform circular motion.
Newton's Second Law | F = ma |
Newton's Third Law | F_{A}B = - F_{B}A |
Formula for maximum static frictional force. | F_{s}^{max} = μ_{s}F_{N} |
Formula for kinetic frictional force. | F_{k} = μ_{k}F_{N} |
Equation for centripetal acceleration. | a = |
Equation for centripetal force. | F = |