During condensation, the movement of gas molecules become slower. This is because the gas molecules transfer their energy to something cooler.
In a gas, molecules are relatively far apart and have the energy to move quickly.
Extremely cold air.
Like all molecules, a molecule of H20 is in constant motion; 'hot' molecules move faster than 'cold' molecules. If the molecules move slowly enough the substance appears stationary to us (frozen water) and if they move quickly enough they will expand to fill their container (vapor or gas water.)
A fragrance would reach you more quickly in a hot room because molecules move faster at higher temperatures, allowing the scent to disperse more rapidly through the air.
Hot air diffuses faster than cold air because the molecules in hot air move more quickly, spreading out and mixing with the surrounding air at a faster rate. Cold air molecules move more slowly, resulting in slower diffusion.
Glaciers move slowly.
They move slowly in the day from the predators but quite quickly in the night because it will be dark.
Slowly
Glaciers move slowly.
Glaciers move slowly.
Molecules in cold substances move more slowly compared to molecules in warmer substances because lower temperatures reduce the energy of the molecules, causing them to move less and at a slower pace.
adding heat to a substance makes its molecules to move quickly
In hot areas the molecules move quickly and in cold areas the molecules move slower.
Molecules in a material move slowly through thermal energy. As temperature increases, the kinetic energy of the molecules increases, causing them to move faster.
Slowly. It has been compared to the rate at which our fingernails grow.
In a gas, molecules are relatively far apart and have the energy to move quickly.
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