ke = .5m(v^2) ke = .5*.162*(37*37) ke = 110.9 joules
energy = .5*m*v*v => .5*.162*37*37 =>111 (joules)
Do you mean "a moving object"? Then the answer is mass & speed.
Kinetic energy does not depend upon the phase of matter; it depends upon the amount of matter, and the speed with which it is moving. One pound of matter, whether gas, liquid, or solid, moving at a specific speed, has the same kinetic energy.
Kinetic energy is the energy that an object has because of its motion. The energy depends on the speed and mass of the object.
If the speed of a moving body is reduced to half, its kinetic eneergy is reduced to 1/4 .
That is called kinetic energy. For non-relativistic speeds (i.e., slow compared to the speed of light), it is calculated by the formula KE = (1/2) mv2. That is, the kinetic energy is 1/2 times the mass times the speed squared.
Potential energy, which can be released as kinetic energy. Kinetic energy not the build up of speed in a moving object.
A moving skateboard has kinetic energy. If it is moving down an incline, it also has potential energy that is converted to kinetic energy as it gains speed. If its moving up an incline, kinetic energy is converted to potential energy as it loses speed.
Moving air has both mass and speed, therefore it has kinetic energy. In principle, this can be converted into other forms of energy.
The kinetic energy depends on the object's mass, and on its speed.
Do you mean "a moving object"? Then the answer is mass & speed.
Kinetic energy does not depend upon the phase of matter; it depends upon the amount of matter, and the speed with which it is moving. One pound of matter, whether gas, liquid, or solid, moving at a specific speed, has the same kinetic energy.
kinetic energy. The formula for kinetic energy is 1/2 mass (weight) x velocity (speed) squared.
Kinetic energy is the energy that an object has because of its motion. The energy depends on the speed and mass of the object.
If the speed of a moving body is reduced to half, its kinetic eneergy is reduced to 1/4 .
As the speed of an object approaches the speed of light, its kinetic energy approaches infinity. An object moving at the speed of light would require inifinite kinetic energy.
An object's kinetic energy is energy entirely due to its motion. The kinetic energy of an object, at some given speed, is the work needed to accelerate that body from rest to the given speed.
That is called kinetic energy. For non-relativistic speeds (i.e., slow compared to the speed of light), it is calculated by the formula KE = (1/2) mv2. That is, the kinetic energy is 1/2 times the mass times the speed squared.