False
Yes. Hurricanes gain energy from moisture that evaporates from warm ocean water. A hurricane could never develop if it were unable to gain energy.
Landforms and bodies of water affect typhoons based on what or how strong the energy is released by the landforms and bodies of water. Typhoons gain energy from warm ocean water and lose energy over cold water. Particularly, landforms lessen the strength of typhoons whenever the winds impact them
Landforms and bodies of water will affect typhoons very differently. A typhoon will typically gain energy and momentum from warm ocean water and will lose energy and momentum over cold water and interactions with land.
Yes, the hurricanes gain from mass a.k.a the sea water. This "mass" makes them stronger and stronger.
when u melt ice the hot particles transfer heat to the cold particles (ice) and the hot particles lose kinetic energy and the cold particles gain kinetic energy till the bonds relax and reaches the same temp
When water molecules at the surface gain sufficient energy they can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere.
These molecules gain sufficient energy to escape into atmosphere.
---- ====== ====== When temperature rises in water, the molecules are activated and they gain energy to move faster. As a liquid the molecules are wide apart but not as much as in gases. The more energy they'll gain the more it will start changing into gases. This is how the process of evaporation is. The gas form of water is called water vapors.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation. The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation. The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere.
Evaporation is favored by a high temperature; more molecules gain sufficient energy to escape in the atmosphere.
When water molecules at the surface gain sufficient energy they can escape in the atmosphere forming a gas. Evaporation (not vaporization) occur at any temperature; a higher temperature increase the rate of evaporation. The energy of water molecules increase by a temperature increase and some molecules at the surface can escape in the atmosphere.