No. Speed, time, and energy are three quite different units.
No. Speed, time, and energy are three quite different units.
No. Speed, time, and energy are three quite different units.
No. Speed, time, and energy are three quite different units.
No. Speed, time, and energy are three quite different units.
kinetic energy is 1/2 mass x velocity squared, so if one is heavier he has more kinetic energy at same speed
Energy may be related to speed - in this case, it's called kinetic energy. However, please note that kinetic energy also depends on an object's mass. Also, there are many other types of energy - it is quite possible to add energy to an object without changing its speed.
Drive alongside it in another vehicle and then move stuff onto the truck. This will increase the mass of the [whole] truck and so increase its KE. This is dangerous so do not try it!
It could have kinetic energy when the strings are being pulled and it is in operation
Well, one type of kinetic energy is a roller coaster. Now, a roller coaster has energy of motion, and it depends on its speed and mass. Its really simple. If u need to do something bout kinetic energy like, for homework or a project, it could be simply a toy car or ball.
Sure. Kinetic energy depends on both mass and speed. So two objects could have different speeds, but if their masses are also different by just the right amount, their KE's could be equal.
Well, one type of kinetic energy is a roller coaster. Now, a roller coaster has energy of motion, and it depends on its speed and mass. Its really simple. If u need to do something bout kinetic energy like, for homework or a project, it could be simply a toy car or ball.
A generator in a power plant converts rotating kinetic energy into electrical energy An electric motor is a device which changes electrical energy into kinetic. For example-- Fans could be like electric energy to kinetic energy...
Clearly, that depends on the amount of potential energy. If given the height, calculate the potential energy with the formula for gravitational potential energy (PE = mgh). If mass is not given, you can assume any mass (it doesn't affect the result), or use a variable "m". Then, assuming it gets converted to kinetic energy, use the formula for kinetic energy (KE = (1/2)mv2), replace the KE with the energy you calculated before, and solve for v (the speed).
Increase mass For a truck increase the load on the truck
The wind is an example of kinetic energy - the energy of motion. It is generally transferred as kinetic erergy to, say, a windmill where it could pump water and the kinetic energy is converted to potential energy.
Your body could could convert chemical energy into potential, kinetic, or mechanical energy.