It is its thermodynamic energy.
The sum of total energies of all microscopic particles is equal to the internal energy of that object.
yes
The total potential and kinetic energy of all microscopic particles in an object make up its internal energy. This includes the energy associated with the motion and interactions of the particles within the object.
The total energy in all the particles of an object is the sum of their kinetic energy (energy of motion) and potential energy (stored energy due to position or state). This total energy is known as the internal energy of the object.
nope. ther'es protons and electrons to worry about too
potential energy
Kinetic energy
Kinetic energy
Kinetic energy
The thermal energy of an object is the total kinetic energy of its particles due to their motion and the temperature of the object. It is a measure of the object's internal energy and is directly related to its temperature.
The total potential energy of all microscopic particles in an object is due to the interatomic forces between them, which can be significant in solid and liquid states. The total kinetic energy of the particles is associated with their random motion, which increases with temperature. Both potential and kinetic energies contribute to the overall internal energy of the object.
The total penitential energy of the particles in an object is the sum of the gravitational potential energy of each particle. The kinetic energy of the particles in an object is the sum of the kinetic energy of each particle. The total energy of the particles is the sum of the penitential and kinetic energy.