An object with more mass than another object has a greater amount of energy in itself (E=MC squared). it also has more kinetic energy if it is moving and more potential energy in a gravity field.
On the mass and velocity also it depends on the mass and quickness. That is the type of energy that it depends on.
Kinetic Energy, or KE, is the energy objects have when in basic motion. If you are talking about the movement of particles in the object, creating heat, it is IE, Internal Energy. and FYI, Potential Energy, PE, is the energy an object has in accordance to its position.
Gravitational potential energy is a type of energy that an object possesses because of where it is placed in a gravitational field. The higher the object the more energy it has, so if you had an object that was on the ground and then you put it on a high shelf then it would have more energy when it is on the shelf.
It depends upon what type of energy you mean. If mass is converted into energy, then the relationship is Einstein's famous equation E=mc2Mass is also related to kinetic and potential energy though. A moving object has a kinetic energy of K.E. = (mv2)/2, where m = mass, v = velocity. An object has a potential energy due to gravity of P.E. = mgh, where h = height, and g= acceleration due to gravity.
Basically, potential energy is increased by either an increase in mass, height, or both. As an object is more massive, it has the potential to do more work. As an object is higher up, it has the potential to do more work because it will have a higher velocity at the moment of impact. This is also seen in the definition of potential energy, which is Epotential = M(Ag)H. As shown, increasing either mass (M) or height (H) or both will increase the potential energy. The potential energy is completely related to kinetic energy. Kinetic energy = .5MV2. Increasing mass will directly increase kinetic energy. Height is a little different. The V is velocity, which increases as the object is falling inwards due to gravitational acceleration. Basically, an increase in mass results in an increase in kinetic energy. Initial height does not matter unless the object is moving downwards towards the center of gravity.
What energy is related to the mass and speed of an object
On the mass and velocity also it depends on the mass and quickness. That is the type of energy that it depends on.
Kinetic energy.KE = 1/2mV2==========
Kinetic Energy, or KE, is the energy objects have when in basic motion. If you are talking about the movement of particles in the object, creating heat, it is IE, Internal Energy. and FYI, Potential Energy, PE, is the energy an object has in accordance to its position.
Kinetic energy. Specifically K.E. = ½mv² where K.E. is kinetic energy m is mass v is velocity
Gravitational potential energy is a type of energy that an object possesses because of where it is placed in a gravitational field. The higher the object the more energy it has, so if you had an object that was on the ground and then you put it on a high shelf then it would have more energy when it is on the shelf.
It depends upon what type of energy you mean. If mass is converted into energy, then the relationship is Einstein's famous equation E=mc2Mass is also related to kinetic and potential energy though. A moving object has a kinetic energy of K.E. = (mv2)/2, where m = mass, v = velocity. An object has a potential energy due to gravity of P.E. = mgh, where h = height, and g= acceleration due to gravity.
This equation shows an equivalence between mass and energy. What this means in practice is that any time the energy of an object increases, its mass will also increase. This is like saying that "energy has a mass". On the other hand, mass can be considered as a special type of energy.
Basically, potential energy is increased by either an increase in mass, height, or both. As an object is more massive, it has the potential to do more work. As an object is higher up, it has the potential to do more work because it will have a higher velocity at the moment of impact. This is also seen in the definition of potential energy, which is Epotential = M(Ag)H. As shown, increasing either mass (M) or height (H) or both will increase the potential energy. The potential energy is completely related to kinetic energy. Kinetic energy = .5MV2. Increasing mass will directly increase kinetic energy. Height is a little different. The V is velocity, which increases as the object is falling inwards due to gravitational acceleration. Basically, an increase in mass results in an increase in kinetic energy. Initial height does not matter unless the object is moving downwards towards the center of gravity.
An object that is stationary and at the top of something has "potential energy". (If you're getting into equations, it's PE = mgh, where PE = potential energy, m = mass of the object, g = the force of gravity, and h = the height of the object.)
Velocity by itself is not an energy - it has different dimensions. Any object that moves has kinetic energy - calculated as KE = 0.5 x mass x velocity2.
E=mc 2 E-energy m-mass c-speed of light squared it means that mass is a type of enrgy and it explains the very large amount of it in a unit of mass as it is multiplied by the speed of light