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A car is not energy; it may have energy. The energy related to movement is called kinetic energy.
A traveling wave is a type of wave in which energy is transmitted in a definite direction and with a definite speed.
Kinetic energy also depends on mass.
Which ever is the highest frequency
You can be accelerating and traveling at a constant speed if you change directions.
A car is not energy; it may have energy. The energy related to movement is called kinetic energy.
A traveling wave is a type of wave in which energy is transmitted in a definite direction and with a definite speed.
That depends on the speed of the spaceship. If it were traveling at the speed of light, which is the maximum speed that any object can reach, it would take 640 years to get there.
Kinetic energy also depends on mass.
This question makes sense in the context of something like a pendulum. At the top of its swing, a pendulum is at maximum height, is not moving and so has zero kinetic energy, and has maximum potential energy since all its energy is potential. As it falls, it gradually moves with increasing speed, so its potential energy is being converted to kinetic energy. At the bottom of the swing, it is moving at maximum speed, and all its energy is kinetic, none is potential, Then it starts to move upwards again, and its kinetic energy is gradually converted back to potential energy.
Well it depends on which selected surface the automobile is traveling on.
Which ever is the highest frequency
When the pendulum is at its lowest point, it has the least potential energy. Therefore, logically, due to conservation of energy, its kinetic energy is at its maximum. Therefore its speed is also at its maximum, as well as its momentum (velocity x mass).
The conversion of Potential Energy (the energy something has as a result of its position in a gravity field) into Kinetic energy (the energy of a mass in movement).
At the highest point it's potential energy, which is then completely converted to kinetic energy as the swing travels through its lowest point at maximum speed. With an ideal swing (no friction) the sum of potential and kinetic energy stays constant (it is 'conserved'). In practice it dies away as the swing slows down, but Conservation of Energy is an important principle in science.
An object's potential energy doesn't depend on its speed. You can do anything you like with the object's speed, and it has no effect on potential energy.
cruising speed