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gas heats up and then the molecules spread away from each other, NOT liquid!
Molecules will always attract each other unless they are negative. In which case tthey will push each other away.
The hotter it is the faster the molecules will move away from each other
The water molecules in ice are more strongly attached to each other than they are when the ice is melted. That is why ice is a solid. As the ice warms up, the heat makes the molecules jiggle around more and more. When it is warm enough, the molecules cannot stay stuck to each other like they did when they were ice. It is when they break away from each other that melting happens. If you continue to heat the water that came from the ice, it will warm until it boils. When that happens, the molecules cannot hold on to each other at all. When they break away, they boil off as an invisible vapor. When that vapor cools a little it makes the fog we call steam.
They connect to each other in DNA.
gas heats up and then the molecules spread away from each other, NOT liquid!
Molecules will always attract each other unless they are negative. In which case tthey will push each other away.
Gases expand as they are heated, as do nearly all liquids. In the course of expansion, the molecules move away from each other.
Due to weak secondary forces between molecules...
The molecules in water are closer to each other than those of water vapor, but farther away from each other than those of ice.
Molecules will always attract each other unless they are negative. In which case tthey will push each other away.
They will travel away from each other if they are similarly charged (+) (+) or (-) (-) They will travel close to each other if they are not similarly charged (+) (-).
That takes energy. Normal diffusion means that the molecules move away from each other (in other words ... to where there are less molecules).
it washes out all the gas and liquid because there is no where else for it to go.
The hotter it is the faster the molecules will move away from each other
Forces between electron pairs push the atoms apart.
Forces between electron pairs push the atoms apart.