When you boil water, it boils at 100 degrees and does not get any hotter as you continue to boil it. The energy you are putting in is being taken away with the steam and the amount of water in the jug reduces. The steam (water in the air) therefore contains the energy you were putting into boiling the water.
When the steam condenses back into water this energy is released again as heat (called the latent heat of condensation) either on a surface or into the air (making the air warmer)
The energy powering a storm comes from the Sun.
The sun's heat warms the surface water, heating the water and the air above it. This causes some of the water to evaporate (go into the air) taking the sun's energy into the air as it does so. The warmer the water (and the air above it) the more evaporated water is stored in the warm air.
A storm reverses the process of storing the sun's heat in the air by causing the water to come our of the air as rain. The more rain that is produced the stronger the storm becomes. Thus the warmer the water over which the storm is moving the stronger the storm because more energy is available to it.
Yes because hurricanes are made from water and when it is at least 80 degrees farhenhite to make a hurricane.So,it can destroy more and can destruct.And because so it can destroy anything in its path.
yes it makes it colder because of the wind
If a hurricane move over cold water it will weaken.
They can, but it depends on conditions. A thunderstorm is likely to gain strength over a warm body of water, but is likely to lose strength over a cold body of water.
Global warming means there is extra heat in the atmosphere. Heat is energy, and this energy is expended in driving winds and storms, including hurricanes.
The strength of the hurricane would decrease, as hurricanes get their energy from warm ocean water.
the colder the water gets
It doesn't. A hurricane gains strength from warm ocean water. Warm water produces large amounts of water vapor, which is essentially the fuel of a hurricane. Cold water and land do not provide as much water vapor, so a hurricane will weaken if it encounters either of those.
A hurriccane can't form unless it is laready over warm water. If it moves over warmer water, the hurricane is likely to gains strength.
A true hurricane cannot strength over cold water. However, hurricanes that move into colder environments can undergo a process called extratropical transition in which they lose tropical characteristics. After this is complete the storm is no longer a hurricane but is considered an extratropical cyclone. These storm systems gain their strength from temperature contrasts rather than warm water. A hurricane undergoing this transition brings tropical air into a cold environment, creating conditions ideal for a very powerful extratropical cyclone.
The warmth of the ocean water (apex)
Hurricanes gain strength from the warmth of the ocean water.
A hurricane increases its speed when it is over warm water.
The strength of the hurricane would decrease, as hurricanes get their energy from warm ocean water.
the colder the water gets
It doesn't. A hurricane gains strength from warm ocean water. Warm water produces large amounts of water vapor, which is essentially the fuel of a hurricane. Cold water and land do not provide as much water vapor, so a hurricane will weaken if it encounters either of those.
A hurriccane can't form unless it is laready over warm water. If it moves over warmer water, the hurricane is likely to gains strength.
Hurricanes needs warm water below them to keep their strength. Moist warm air rising from the sea is what builds hurricanes.
Hurricanes lose their strength quicker on land.
Water is added to decrease the Conc^ or the water is evaporated of to increase the Conc^
Hurricanes weaken when they are not over warm water or are over cooler water. (You couldn't have a hurricane in an area that is not near warm water). When they come to land the energy from the wind is lessened by the land formations as both land and cold water cut off a hurricane from the warm water the provides its energy.
A true hurricane cannot strength over cold water. However, hurricanes that move into colder environments can undergo a process called extratropical transition in which they lose tropical characteristics. After this is complete the storm is no longer a hurricane but is considered an extratropical cyclone. These storm systems gain their strength from temperature contrasts rather than warm water. A hurricane undergoing this transition brings tropical air into a cold environment, creating conditions ideal for a very powerful extratropical cyclone.