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hot water has fast moving particles, and cold water has slow moving particles
Faster particles have more energy than slower particles, yes.
No, they vibrate faster.
Slower, at higher temperature that is.
by convection and the particles go slower
hot water has fast moving particles, and cold water has slow moving particles
It depends upon the mass of the particles also. Assuming equal mass, then the slower moving particle gains some energy, and the faster moving particle loses energy. However, if the slower moving particle had greater mass, it could transfer energy to the faster moving particle.
no it does not but the particles move slower then it would if it is a liquid, or a gas.
No, heat makes the particles move faster. If you remove the heat the particles will start moving slower as it cools down.
The steam you see coming off a hot bowl of soup are the hotter, faster moving particles evaporating into the air, leaving slower-moving, cool particles behind. But these evaporated particles form a little cloud of vapor above the soup, which prevents the other hot particles from evaporating. When you blow on your soup, you blow away the vapor. This allows more of the faster moving particles to evaporate.
Increased energy makes particles move faster.
the particles freeze up & not moving they lose energy and turn into ice
Faster particles have more energy than slower particles, yes.
Temperature is a measurement of the average kinetic energy on the atomic or molecular level; hotter substances have faster moving particles. Faster moving particles have more energetic collisions with the particles of which solids are formed, which are more able to knock them out of the solid and into the solution, than slower moving particles would be.
Warm air is less dense than cool air, so it rises upward. As it does so, the fast moving, compressed particles in the air begin to slow down and expand, causing them to cool (since fast-moving particles create heat, and slower-moving particles are colder).
When something is heated the particles inside it begin to move faster and faster and that causes the heat, when something is frozen the opposite occurs the particles inside it move slower and slower and probably stop moving all together
Perhaps. Temperature does not apply to quantum mechanical objects like particles. It applies to populations, such as a "mote" / body / air mass / planet / etc. There it means the individual atoms / molecules are moving with such-and-such an average speed. When dealing with a particle, it is better to refer to its kinetic energy.