the kinetic energy that is being used simply changes then into wate energy
When a moving train stops, its kinetic energy is primarily converted into heat energy due to friction between the train's brakes and the track. Additionally, some kinetic energy may also be converted into sound energy and vibration energy during the process of stopping.
That depends on what happens to its speed. The formula for kinetic energy is:KE = m(v)^2, in which m is mass in kg and vis speed in m/s.If either the mass or the speed increases, the kinetic energy will increase. So if the mass of the rolling snowball increases, but the speed remains constant, its kinetic energy will increase.However, in reality, due to friction between the snowball and the ground, the speed will decrease until the snowball stops. So the kinetic energy under natural conditions would decrease, even though the mass increases.
At 0 Kelvin, all molecular motion stops, so the kinetic energy of the vapor molecules would be zero. Therefore, the kinetic energy of the vapor would be reduced to zero.
When you remove kinetic energy from a substance, its particles slow down. If enough kinetic energy is removed, the substance may transition from a gas to a liquid or a solid, depending on the substance.
The kinetic energy of a falling nickel can be calculated using the formula KE = 1/2 * m * v^2, where m represents the mass of the nickel and v is its velocity. By knowing these values, you can plug them into the equation to determine the kinetic energy.
When a machine stops, the kinetic energy is dissipated as heat due to friction and other forms of resistance. As the machine comes to a halt, the kinetic energy is transformed into thermal energy and eventually dissipates into the surroundings.
It is converted into mostly potential (stored) energy.
it's construction and maintanence cost is very costly.so,it had stopped
The pendulum's momentum or kinetic energy is converted to gravitational potential energy until all of the kinetic energy is converted. The pendulum stops.
When a marble stops moving, its kinetic energy is converted into other forms of energy such as sound and heat due to friction with the surface it stops on. Some of the kinetic energy may also be transferred to the surface of the marble and the surrounding air molecules as vibrations.
As the pendulum stops swinging, its maximum kinetic energy (the initial energy at the beginning of the swing) decreases, and its potential energy increases. Once the pendulum stops, it will have zero kinetic energy and maximum potential energy.
At terminal speed, the object stops accelerating due to air resistance equaling gravitational force. The kinetic energy remains constant because the object is moving at a constant speed.
The kinetic energy of the moving water has been transferred to other forms of energy, such as heat and sound, during the stirring process. Once the water stops moving, the kinetic energy has dissipated and the water is now in a state of equilibrium.
Heat energy cause it stops and let's off all the heat it just gained from the train tracks.
No. It has potential energy once it stops. and when it moves, it has kinetic energy. it always has energy
No. It has potential energy once it stops. and when it moves, it has kinetic energy. it always has energy
When a moving train stops, its kinetic energy is primarily converted into heat energy due to friction between the train's brakes and the track. Additionally, some kinetic energy may also be converted into sound energy and vibration energy during the process of stopping.