No matter whether there is limited energy, particles are still moving. When they are
heated, they move very fast and rapidly. When they are cooled, they tend to slow
down and move slower. That is because heat is energy adn when something is
cooled, they lose their heat, basically, they lose their energy and particles move slow.
It gets colder. And the energy increases so the particles move further apart.
because you are allowing more of it to be exposed to water. it is called heat transfer. while the oxygen is much cooler than the cup itself, it will cool the cup. this happens without stirring, but with stirring, you are increasing the "surface area" (the parts that are at the bottom are being exposed) which speeds up the process. give me trust point? (:
A particle accelerator is used to make particles travel very fast using magnetic waves. The particles are then collided with other particles to see what happens.
they all contract.
it becomes cool
When liquids cool, the particles tend to tighten up, or get really close together, and slow down.
The movement of particles is first accelerated and then decelerated.
they slow down.
When you heat air, the air pressure rises and the particles expand.
The cooler the temperature, the slower the particles move and the closer together they are because they don't need as much room. That accounts for how cooler air is thicker.
It gets colder. And the energy increases so the particles move further apart.
When water particles cool off, they lose energy and slow down, causing them to move closer together. This reduction in energy disrupts the hydrogen bonds between the water molecules, leading to the formation of a solid structure known as ice.
It condenses, this is what happens when the particles in a gas cool down. If you breath onto a piece of glass you can see a small amount of condensation
It all depends on the particles and the solution
When you cool a liquid, the particles within the liquid lose energy and move more slowly, causing the liquid to contract and become denser. Eventually, the liquid may reach its freezing point and solidify into a solid state.
As particles are heated during convection, they gain energy and their kinetic energy increases. This causes the particles to move faster and spread out, leading to decreased density and rising. As they cool down, they lose energy and their kinetic energy decreases, causing the particles to move slower, come closer together, and sink.
Particles are spread out to the maximum of the space available.