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kinetic energy
[ ki-net-ik en-er-jee, kahy-net-ik ]
noun
- the energy of a body or a system with respect to the motion of the body or of the particles in the system. Compare potential energy.
kinetic energy
noun
- the energy of motion of a body, equal to the work it would do if it were brought to rest The translational kinetic energy depends on motion through space, and for a rigid body of constant mass is equal to the product of half the mass times the square of the speed. The rotational kinetic energy depends on rotation about an axis, and for a body of constant moment of inertia is equal to the product of half the moment of inertia times the square of the angular velocity. In relativistic physics kinetic energy is equal to the product of the increase of mass caused by motion times the square of the speed of light. The SI unit is the joule but the electronvolt is often used in atomic physics EkKT KE
kinetic energy
/ kə-nĕt′ĭk /
- The energy possessed by a system or object as a result of its motion. The kinetic energy of objects with mass is dependent upon the velocity and mass of the object, while the energy of waves depends on their velocity, frequency, and amplitude, as well as the density of the medium if there is one (as with ocean waves).
- Compare potential energy
kinetic energy
- The energy an object has because of its motion.
Word History and Origins
Origin of kinetic energy1
Example Sentences
Without a braced front knee the kinetic energy within that process is lost and the ball is released without the same zip and nip you hear bowlers talk about.
Though convection is the main driver, the fronts account for a quarter of the total kinetic energy powering Jupiter's cyclones and forty percent of the vertical heat transport.
"One of the basic ideas for how to start a dynamo is that you need a region where there's a lot of plasma moving past other plasma, and that shearing motion converts kinetic energy into magnetic energy," Burns explains.
As a result, less heat is released from the oceans and into the atmosphere, leading to increased kinetic energy and a more meandering jet stream.
But I’m not exactly sure that they would have been able to push that vessel clear at that time because the sheer momentum, inertia, and kinetic energy that that vessel had.
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