kinetic
The total energy of an object depends mainly on the mass of the particular object and the bond formation, and conditions such as temperature, pressure etc.
In microscopic particles it's called internal energy. In macroscopic particles it's called thermodynamic energy.
It's internal energy.
That's the internal energy.
Internal energy
Thermal Energy
The answer is "partly". Thermal energy consists of the average kinetic energy of the particles (how much they move around, bumping into things and each other) and the average potential energy of the particles (tough to picture - how much they "shake back and forth", or oscillate, from their normal, resting position).
All states of matter have vibrating particles, but solids' particles vibrate only.
Releasing energy means particles do not vibrate as much as previously. They therefore draw on the energy from other nearby particles, who then draw from others, and so on. Eventually there is a decrease in the total vibration and therefore collective energy of all particles. Less energy equals less heat.
It is its thermodynamic energy.
potential energy
Kinetic energy
Kinetic energy
Kinetic energy
The sum of total energies of all microscopic particles is equal to the internal energy of that object.
The total potential and kinetic energy of a MICROSCOPIC object is it's INTERNAL ENERGY.
yes
Internal energy
Thermal Energy
potential energy
nope. ther'es protons and electrons to worry about too