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Gravitational potential energy increases; kinetic energy increases.
They start to move faster, therefore, the reaction will happen quicker. This is because there is more chance of a collision between the particles.
Increases
They start to move faster, therefore, the reaction will happen quicker. This is because there is more chance of a collision between the particles.
it stays the same
It increases.
Since temperature is a measure of kinetic energy, so as kinetic energy increases, temperature must also increase or vice verse
Gravitational potential energy increases; kinetic energy increases.
It will increase
It will increase
They start to move faster, therefore, the reaction will happen quicker. This is because there is more chance of a collision between the particles.
It increases; more freely moving particles.
What type of energy? Thermal, kinetic, gravitational, electrical?
Increases
Either and both liquifaction &/or freezing.
Depends on the container of the "air particles" and what you mean by "what happens." If it is inside a container that can not expand, then the pressure increases. If it is inside a container that can expand (or is just atmospheric air) then the volume increases. (Pressure * Volume = n * R * change in temperature) On the atomic level, the atoms or molecules (depending on the gas) begin to move more quickly as their kinetic energy increases.
They start to move faster, therefore, the reaction will happen quicker. This is because there is more chance of a collision between the particles.