very little, but they move. :D
Liquid water molecules exhibit a greater amount of motion than ice molecules.
A glacier can completely reshape the land. As it is made of very heavy ice, this ice can erode surfaces from the debris and rocks that it carries and the amount of pressure it places on the surface beneath it during its movement.
no.
The main characteristic of the exosphere is that the density of the atmosphere is so low that there are no significant amount of collisions between molecules. Most of the time, molecules just go up into the exosphere, follow a parabolic trajectory, and fall back down.
[Glacial] flow
The large amount of heat required to melt ice and boil water is due to the energy needed to break the intermolecular bonds that hold the water molecules together in a solid or liquid state. This process absorbs energy and increases the temperature until the phase change is complete.
Liquid water molecules exhibit a greater amount of motion than ice molecules.
It has a different amount of space between molecules
It has a different amount of space between molecules.
heat.
heat.
heat.
in the solid state of water {ice} the molecules are well orderly arranged .as thermal energy decreases the freedom for movement of molecules are affected. Thus when temperature increases the thermal energy of molecules increasesand they began to move in random motion. that is the melting of ice.
The amount of salt in a liquid can affect how osmosis occurs. Osmosis is a net movement of molecules due to the concentration present.
A phase change does NOT chance the total number of molecules. There will be some evaporation and sublimation too. During the time that ice melts there will some molecules that sublimate to water vapor and also some water molecules evaporate to vapor. But the total mass and number of molecules will not change.
i think the temperature affects the movement of water because if the liquid is cold the molecules come together. Therefore, the water moves slower, and if the liquid is hot the molecules spread apart and move faster.
No, the ice molecules in ice are not ionized.