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Kinetic energy also depends on mass.
No, because potential energy is the amount of energy that COULD be used, while kinetic energy is the amount of energy that IS being used.
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no .Gas have more kinetic energy than it's liquid form.
Kinetic energy is the energy of motion. Heat is a form of kinetic energy (the movement of individual atoms or molecules) so the liquid phase contains more kinetic energy than the solid and the gas phase has more kinetic energy than the liquid phase. However, kinetic energy can also be imparted to a mass as a whole in which case if the total mass of the phases was constant the this imparted kinetic energy would be the same for all phases.
Im so confused
Kinetic energy also depends on mass.
The formula for kinetic energy is: KE =( mv2)/2 m= mass (not weight) v= velocity A more massive car will have more kinetic energy than a lighter one traveling at the same speed. A faster moving car will have much more kinetic energy than an identical car moving slower.
Of course not. A battleship in motion has more kinetic energy than a housefly in motion has.
No, because potential energy is the amount of energy that COULD be used, while kinetic energy is the amount of energy that IS being used.
Gravity is a force more so than an energy
Kinetic Energy = 1/2 mv2 where m = mass and v = velocity A train has much more mass than a car. So even if they are travelling at the same speed, a train will have more kinetic energy than a car.
Than in ??what?? state Kinetic energy is greater in liquid state because the liquid substance is moving. If the kinetic energy was less than in liquid state, the object of the state would become solid.
well considering kinetic energy is the energy something has when it is moving than i would say cold because it runs more and drips faster
faster atoms have more kinetic energy than slower atoms do.
if kinetic energy increases than potetial energy decreases
Higher temperatures mean more heat energy which translates into more kinetic energy of the molecules of nitrogen gas. This greater kinetic energy allows the molecules to diffuse faster than at a lower temperature and lower kinetic energy.