Global winds affect the general weather patterns in many regions.
In areas that have high frequencies of tornadoes, wind patterns and regional topography often lead to warm moist air masses colliding with cooler air and/or drier air, thus producing strong thunderstorms that can potentially produce tornadoes.
Such regions also often have a lot of wind shear, which occurs when the speed and direction of wind changes with altitude. This can give storms the rotation needed to produce tornadoes.
Finally, global winds affect the direction that tornadoes usually travel. For example, due to the prevailing winds most tornadoes in the United States travel from southwest to northeast.
Tornadoes can have winds over 300 mph. Tornadoes this strong are extremely rare though.
Tornadoes vary widely intensity. Winds can range from 65 mph to over 300 mph Most tornadoes are weak, with winds of 65 to 85 mph. The greatest amount of damage is caused by the strongest 5% of tornadoes, with winds over 135 mph. Fewer than .1% of tornadoes have winds over 200 mph.
It depends on the tornado. For most tornadoes the fastest winds occur at the edge of the core. For other tornadoes, especially large and/or strong ones the strongest winds occur in the suction vorticies, which are like mini tornadoes moving within the main circulation of a tornado. Tornadoes with this feature are called multiple vortex or multivortex tornadoes.
It depends on the tornado. In most tornadoes the strongest winds are near the center. In multivortex tornadoes, however, the strongest winds are in the subvorticies, which are almost like smaller tornadoes within a larger one.
Most tornadoes have winds in the range of about 65-85 mph. The most damaging tornadoes usually have winds over 165 mph. On rare occasions winds can exceed 300 mph.
Global winds affect the general weather patterns in many regions. In areas that have high frequencies of tornadoes, wind patterns and regional topography often lead to warm moist air masses colliding with cooler air and/or drier air, thus producing strong thunderstorms that can potentially produce tornadoes. Such regions also often have a lot of wind shear, which occurs when the speed and direction of wind changes with altitude. This can give storms the rotation needed to produce tornadoes. Finally, global winds affect the direction that tornadoes usually travel. For example, due to the prevailing winds most tornadoes in the United States travel from southwest to northeast.
it causes the winds to curb
dickbutt
Scientists don't think tornadoes affect global warming. There are some studies to suggest the other way round, that global warming and climate change may lead to weather events like tornadoes, more often and more violent.
Global Winds Coriolis EffectContinental Deflection
No. While global warming might affect tornado activity, tornadoes themselves are an end product of weather and climatic activity, not a cause.
Global winds are local winds.
Global can affect anyone in the world while local is just in your area.
Tornadoes can have winds over 300 mph. Tornadoes this strong are extremely rare though.
They can. Aircraft flying near a tornado will experience strong winds flowing into it. Tornadoes have also hit airports where aircraft have been damaged or destroyed.
When thunderstorms occur with strong, intense winds. tornadoes form when those winds start to rotate tornadoes form
It effects the trains goin west