Want this question answered?
When anything is cooled its particles move more slowly.
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.
Sound travels by particles (such as atoms or molecules) bumping into other particles, thus transferring the energy, in form of a sound.
It changes shape.
liqiud
When anything is cooled its particles move more slowly.
they come together as a solid form because of the kenitic molecular theory. If you add energy there gonna spread out. Hopes that answers your question Good Luck
Particles increase their motion because of increased kinetic energy on the molecular level. This breaks bonds holding them together as a solid and the particles become gases during sublimation. During condensation the opposite occurs. Particles are losing heat energy which means a loss of kinetic energy slowing the particles down to the point that the attractive forces form bonds causing the gas to become a liquid.
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.
Sound travels by particles (such as atoms or molecules) bumping into other particles, thus transferring the energy, in form of a sound.
liqiud
It changes shape.
RRadiant energy from the sun strikes the water particles at the surface of the pond. The water particles gain energy and break free of the water. Thus, the liquid water particles escape to form water vapor.
Particles in a solid are packed tightly together, and vibrate, but don't really move around. In liquid, they are fairly close together, but are not arranged in a particular pattern, and slide over and around each other. In a gas, the particles are spread out and in no regular arrangement and move around and vibrate at high speeds. Additionally, particles in a solid move slower than particles in a liquid or gas, particles in a liquid move somewhere in the middle, and gas particles move the fastest of all.
Particles do not change when they change state from solid to liquid form. However, they will change behavior because they are completely still when they are solid and move faster when a liquid.
kinectic energy
Cloud condensation nuclei are solid particles around which cloud droplets form. Dust and salt are examples of particles that can become cloud condensation nuclei.