If a hurricane travels over land and then goes over water again, what happens depends on the temperature of the water and the winds overhead. If the water is over 78F (26C) and the air in the Stratosphere is moist and not blowing strong, the hurricane will strengthen. Otherwise, it will either remain the same or weaken. If it is north of 40 degrees, it will likely speed up and become extra tropical.
Once a hurricane moves inland, it is typically referred to as a tropical storm or simply a tropical depression, depending on its sustained wind speeds. The official designation of "hurricane" is reserved for storms that maintain their strength over water. As the system weakens, it loses its hurricane classification but can still bring significant rainfall and flooding.
Hurricanes depend on warm ocean water to develop. The warmer water is the more water vapor it produces ad the more it warms the air directly above it. This warm, moist air is essentially the fuel of a hurricane. The warmer the water the stronger a hurricane is likely to become. If a hurricane moves over cold water it will weaken and die.
A drop of water in the water cycle may evaporate due to heat, forming water vapor. This vapor then condenses into clouds, falls back to Earth as precipitation, and re-enters bodies of water through runoff or infiltration, continuing the cycle.
There is no such thing as a category 7 hurricane, the strongest is 5.
It goes back into the soil.
Faker
Hurricanes develops its speed as it goes over warm water
it will goes under the water.
If a hurricane moves over cold water, it typically weakens or dissipates because hurricanes thrive on warm ocean water to maintain their strength and intensity. Cold water disrupts the heat and moisture supply that fuels the storm, causing it to lose its power.
fresh water
it goes threw a cycle
the car goes back
In about 150 years everything will die
It will goes back to its original size.
it goes back and forth
Water cycle
Evaporated water goes in the atmosphere as a gas and come back after condensation as rain or snow.