20 terms

Conceptual Physics Chapter 7: Energy, Conceptual Physics Chapter 6: Momentum, Conceptual Physics Chapter 5: Newton's Third Law of Motion

Conceptual Physics 12th e. by Paul G. Hewitt Summary of Terms, Summary of Formulas, and Terms Within the Textbook

Terms in this set (...)

The product of the force and the distance moved by the force.
The time rate of work:
(More generally, power is the rate at which energy is expended.)
The property of a system that enables it to do work.
Potential energy (PE)
The energy that something possesses because of its position.
Kinetic energy (KE)
Energy that something possesses because of its motion.
Work-energy theorem
The work done on an object equals the change in kinetic energy of the object.
Law of Conservation of energy
Energy cannot be created or destroyed; it may be transformed from one form into another, but the total amount of energy never changes.
A device that increases (or decreases) a force or simply changes the direction of a force.
Conservation of energy for machines
The work output of any machine cannot exceed the work input. In an ideal machine, where no energy is transformed into thermal energy.
The percentage of the work put into a machine that is converted into useful work output.
(More generally, useful energy output divided by total energy input.)
The unit of work, also known as a Newton-meter.
The product of the force acting on an object and the time during which it acts.
Law of Conservation of Momentum
In the absence of an external force, the momentum of a system remains unchanged.
Elastic Collision
A collision in which colliding objects rebound without lasting deformation or the generation of heat.
Inelastic Collision
A collision in which the colliding objects become distorted, generate heat, and possibly stick together.
Inertia in motion. The product of the mass and the velocity of an object.
Impulse-Momentum Relationship
Impulse is equal to the change in momentum of the object that the impulse acts upon. In symbolic notation:
Ft = ∆ mv
In physics, it may be as tiny as an atom or as large as the universe. We usually refer to it as a the relationship between two objects.
Mutual action between objects where each object exerts an equal and opposite force on the other.
Mutually perpendicular vectors, usually horizontal and vertical, whose vector sum is a given vector.