it will move slower.
The speed of a particle decreases with decreasing temperature. Decreasing temperature is associated with lower energy states, and the particle will have a lower energy state. It will be moving with less kinetic energy.
Then the matter will end up having less energy.Then the matter will end up having less energy.Then the matter will end up having less energy.Then the matter will end up having less energy.
gas state of matter has less energy be cause of low intermolecular attraction.
The air becomes less dense as it expands making the balloon appear to self inflate.
Sort of. That's a common explanation for what happens in a nuclear reaction. But technically, both matter and energy are conserved - there is no more or less matter after the reaction, than before the reaction. Therefore, in such cases there is no matter-to-energy conversion. Read the Wikipedia article on "Mass deficit" or "Binding energy" for a more detailed explanation. There's no sort of about it. The meaning of Einstein's equation (E = mc2) is that matter and energy are interconvertible, and this happens all the time. What is conserved is mass-energy. Mass and energy are not conserved separately.
you have less energy
The colder a particle is, the less energy it has and the slower it moves.
less energy, less life
weight loss.
Alpha particles with the same energy as beta particles have much less speed, magnetic field or no.
Each particle bumps into another particle, transferring the energy. The particles themselves return more or less to their original position - exactly to their original position in the case of a solid.
Matter does not take up less space when energy is added to it. This is because energy is not a physical unity and therefore it does not interfere with the occupancy of space by matter.