Many factors may cause the development of a hurricane to weaken. Three factors are low sea surface temperature, high wind shear and making landfall.
Three factors that weaken a hurricane during development are wind shear, cooler sea surface temperatures, and dry air intrusions. Wind shear disrupts the organization of the storm, cooler sea surface temperatures reduce the heat and energy available for the storm, and dry air can inhibit thunderstorm activity needed for hurricane development.
A hurricane will weaken if it moves over cold water.
A mountain will not be affected much by a hurricane, if at all. However, if a hurricane moves over land, and especially mountains it will rapidly weaken.
Hurricanes are fueled by water.
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.
Cloud "Seeding"
Cooling sea surface temperatures, increased wind shear, or dry air moving into the storm are factors that can weaken a hurricane. Additionally, encountering land or interacting with other weather systems can also cause a hurricane to decrease in strength.
At peak strength Sandy was a category 2 hurricane but had weaken to category 1 strenth at landfall in the U.S.
It gets its energy from warm water.
The decrease in millibars indicates a drop in atmospheric pressure, which correlates with the increasing intensity of a hurricane. A lower pressure system allows air to rise and fuels the storm's development and strength. Conversely, an increase in millibars signifies a rise in atmospheric pressure, which can weaken the hurricane.
Yes, both tornadoes and hurricanes typically weaken over land as they lose their source of warm ocean water. The friction of land and less favorable atmospheric conditions for development contribute to the decrease in intensity.
Hurricane strength can decrease if the storm moves over cooler ocean waters, encounters dry air, wind shear, or interacts with land. These factors can disrupt the storm's organization and weaken its circulation, leading to a decrease in strength.