Intense low pressure at the tornado's center produces the wind. Most winds on earth are produce by pressure differences. The greater the difference over a given area, the greater the wind speed. Tornadoes produce a very large pressure drop over a short distance due to a steep pressure gradient.
The strong winds associated with a tornado in diagram c are caused by the updraft and downdraft within the thunderstorm. As warm, moist air rises rapidly, it creates rotation within the storm, leading to the development of a rotating updraft called a mesocyclone. The violent winds in the tornado are a result of this rotating column of air reaching the ground.
Thunderstorm winds can reach speeds of 60-100 mph, known as straight-line winds or downdrafts, without the presence of a tornado. These winds can cause significant damage and are often associated with severe thunderstorms.
Yes. Even a very weak tornado produces winds over 60 mph (95 km/h). The most violent tornadoes can produce winds over 200 mph (320 km/h), with one tornado having winds measured at just over 300 mph (480 km/h).
It is believed that there is a calm "eye" at the center of a tornado. But mostly the winds in a tornado are very strong.
Strong tornadoes do not necessarily move faster, but the faster winds inside the tornado are the reason they're stronger. There are a number of factors affecting the strength of the winds inside a tornado and scientists still do not fully understand them. One factor simply has to do with the amount of energy in the atmosphere that can power a thunderstorm and thus a tornado. A thunderstorm also has to have strong rotation to produce a tornado, especially a strong one. If the rotation in a storm isn't strong enough, then not much of the energy will go into the winds of the tornado. Finally, the tornado's level or organization influences the winds it can generate. A disorganized tornado is unlikely to be able to focus its energy to produce the extreme winds seen in strong tornadoes.
The strong winds in a tornado are causes by the steep pressure gradient surrounding it, with intense low pressure at the tornado's center. Strong winds in thunderstorms are usually caused by rain cooled air falling rapidly to ground level in an even called a downburst.
The strong winds associated with a tornado in diagram c are caused by the updraft and downdraft within the thunderstorm. As warm, moist air rises rapidly, it creates rotation within the storm, leading to the development of a rotating updraft called a mesocyclone. The violent winds in the tornado are a result of this rotating column of air reaching the ground.
The greatest amount of damage in a tornado is caused by extremely strong winds. Additional damage is from flying debris.
Wind causes most of the damage associated with tornadoes. In rare cases, tornadic winds can reach over 300 mph.
Tornado damaged is caused by a tornado's powerful winds and objects carried y those winds.
On rare occasions winds in a tornado can get to a little over 300mph.
Change in air pressure causes the strong winds. In fact, most winds that we experience on Earth are caused by change in air pressure. Usually significant changes in air pressure occur over a large area and therefore it's only a slow change in pressure over distance making light winds. In a tornado, you get a significant drop in air pressure over just a few feet of land. This causes the winds to get excessivly high.
Thunderstorm winds can reach speeds of 60-100 mph, known as straight-line winds or downdrafts, without the presence of a tornado. These winds can cause significant damage and are often associated with severe thunderstorms.
yes
Yes, every tornado has a vortex, which is the rapidly rotating column of air that extends from the base of the storm clouds to the ground. This vortex is what causes the destructive winds associated with tornadoes.
Severe thunderstorms would probably be the answer. They can produce strong winds in more than one way. First, they can produce winds via a downburst which is a strong downdraft that occurs during a thunderstorm, and the causes strong, straight-line winds that can sometimes exceed 130 mph. In some cases downbursts can occur along a line of severe storms, resulting in a phenomenon called a derecho. Another way thunderstorms can produce strong winds is through a rear-flank downdraft or RFD, a descending mass of dry air associated with the mesocyclone, or rotating updraft, of a supercell. The RFD can produce winds in excess of 100 mph. It is also believed to play an essential role in tornado formation.
Most of the damage caused by tornadoes is the result of extremely powerful winds.