According to einstine energy relation that energy of a moving body is equal to product of mass of that body and square of the velocity of light.
The energy of a body is W = -mv2 + cmV = -mv2 + cmV = [-vp, cP]. At Extreme the Total energy is W = -mc2 + mc21P = mc2[-1,1R], a Quaternion energy. The Total energy magnitude is |W| = 2mc2.
Heat
When an object is moving, it is called kinetic energy.
An object has kinetic energy when it is moving and not when it is at rest. When it is at rest it has potential energy.
An object's kinetic energy is energy entirely due to its motion. The kinetic energy of an object, at some given speed, is the work needed to accelerate that body from rest to the given speed.
Mechanical energy is transferred by a force to a moving object.
The kinetic energy depends on the object's mass, and on its speed.
The amount of kinetic energy an object has depends on its mass and speed.
Heat
Heat
When an object is moving, it is called kinetic energy.
An object has kinetic energy when it is moving and not when it is at rest. When it is at rest it has potential energy.
An object's kinetic energy is energy entirely due to its motion. The kinetic energy of an object, at some given speed, is the work needed to accelerate that body from rest to the given speed.
Mechanical energy is transferred by a force to a moving object.
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.
an object has no kinetic energy if it is not moving
an object has no kinetic energy if it is not moving
An object's kinetic energy is energy entirely due to its motion. The kinetic energy of an object, at some given speed, is the work needed to accelerate that body from rest to the given speed.