Well when water and ice particles rub together in a cloud they form a electricity
The particles in the solid (solute) break apart and form links with the particles in the liquid (solvent). There are strong forces of attraction between the molecules and particles inside the solute. These forces keep the particles together and make the solute a solid because they attract the solute particles tightly together. There are also strong forces of attraction between the molecules and particles inside the solvent. These forces keep the particles together and make the solvent a liquid because they attract the solvent particles slightly together. There is also an attractive force between the solute and solvent particles. To break these forces and from a bond between the solute and solvent particles energy is needed. This energy is gained from heat (the process of dissolving is speeded up through heat.) In conclusion, the particles in a solute break apart of their attractive forces and form bonds with the solvent particles through the attraction between the solute and solvent particles and through the energy gained by heat.
no, the air inside balloons is a gas and therefore the particles are moving quickly and are spread out, bouncing off the sides of the balloon. Particles in solids are packed close together.
they slow down
by squashing it together really tightly and then all the particles inside the snow will come closer together and stick to one and other
No, heating a liquid makes it's particles move farther apart (makes the liquid expand). This is most readily observed in an old glass thermometer. As your temperature goes up (as you heat the liquid in the thermometer), the liquid inside expands and travels up the thermometer.
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
The gas particles squeeze closer together
They will be pushed closer together.
Evaporation occurs, it becomes solid inside
The particles in the solid (solute) break apart and form links with the particles in the liquid (solvent). There are strong forces of attraction between the molecules and particles inside the solute. These forces keep the particles together and make the solute a solid because they attract the solute particles tightly together. There are also strong forces of attraction between the molecules and particles inside the solvent. These forces keep the particles together and make the solvent a liquid because they attract the solvent particles slightly together. There is also an attractive force between the solute and solvent particles. To break these forces and from a bond between the solute and solvent particles energy is needed. This energy is gained from heat (the process of dissolving is speeded up through heat.) In conclusion, the particles in a solute break apart of their attractive forces and form bonds with the solvent particles through the attraction between the solute and solvent particles and through the energy gained by heat.
no, the air inside balloons is a gas and therefore the particles are moving quickly and are spread out, bouncing off the sides of the balloon. Particles in solids are packed close together.
They begin to move quicker
The value in "banging particles together at high speed" is that, when you do so, the larger particles can break up and show scientists what is inside. When this happens, scientists are able to find smaller and smaller particles so that they can understand better what the most basic particles in the universe are. In doing so, scientists are slowly getting closer to finding out how the universe began and what may have caused its creation.
There ain't no such animal! :) UV is a wave of energy just like light or heat and does not have any particles.
The particles will have lower kinetic energy, which will slow them down, and the pressure inside the can will decrease as a result.
the particle will vibrate more slowly around its position.
When energy is added the particles inside the substance vibrate more. Conversely, the vibrate less when energy is removed.