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
it depends on the mass and volume of the object. Find these two things and youll find out.
If you mean energy, then it would be mechanic. There is also elastic energy which is also considered in mechanic energy.
The producers in an ecosystem such as duckweed cattails have the greater total amount of energy. This is because they produce their own energy.
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.
Kinetic energy is the energy an object has due to its mass and its velocity. Kinetic energy is calculated with the equation: Ek = ½ mv² Since kinetic energy is proportional to mass and velocity, any object moving very slowly has a small amount of kinetic energy. Also, any very small object normally has a small amount of kinetic energy. For example, a soccer ball rolling down a hill might have a relatively small amount of kinetic energy.
KE = m•v2The object whose mass and velocity squared give the greatest value for KE has the greatest KE.
enthalpy
The total amount of energy before and after a transformation will be the same. Energy may pass from one object to another object, or be converted from one type of energy to another, but the total amount doesn't change.
The kinetic energy in an object is EK=mcV where V is the velocity, a vector.
It's internal energy if the object is microscopic and thermodynamic or mechanical energy if it's macroscopic.
Thermal Energy
Total energy of an isolated object is always same.
The total kinetic and potential energy of its particles.
No, it is only a part of the total energy.
No. The amount an object weighs is simply called its "weight".
The amount of kinetic energy an object has depends on its mass and speed.
The total kinetic and potential energy of the molecules of an object is thermal energy.
Such is called kinetic energy.