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∙ 6y agoThe 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, the wind near the center of a tornado, called the eye or the calm, can be relatively calm compared to the strong winds outside the tornado. This calm area is typically small and short-lived.
The strong winds in a tornado are caused by the rapid rotation of air within the storm. As the rotating air spirals inward, it intensifies the wind speed near the center of the tornado, creating the strong and destructive forces that are characteristic of tornadoes. Temperature differences and pressure gradients within the storm also contribute to the formation of these powerful winds.
Strong tornadoes have more intense and well-organized updrafts within the thunderstorm that generate stronger wind speeds at the surface. This allows them to travel faster than weak tornadoes, which have less intense updrafts and weaker wind speeds.
Yes, the wind inside a tornado is extremely strong, reaching speeds of over 300 mph (480 km/h) in the most intense tornadoes. This high wind speed is what causes the devastating damage associated with tornadoes.
On rare occasions winds in a tornado can get to a little over 300mph.
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
Strong winds in tornadoes and thunderstorms are caused by the large temperature differences between warm and cold air masses colliding. This collision creates strong updrafts that can then lead to the development of tornadoes and severe thunderstorm winds.
Yes, the wind near the center of a tornado, called the eye or the calm, can be relatively calm compared to the strong winds outside the tornado. This calm area is typically small and short-lived.
Yes, strong winds often accompany tornadoes, known as the outflow winds or downdrafts. These winds can be felt before the tornado actually touches down, indicating that a tornado may be approaching.
Very strong rotating winds.
If you mean can a 15-20 mph wind then no. In fact there is strong evidence to support that strong winds from a specific portion of a thunderstorm are what help form a tornado. These winds can exceed 100 mph.
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.
It depends on the cyclone, and the tornado. In some cases cyclone winds and tornado winds fall into the same range. However, tornado winds are generally stronger. By definition, a tornado must produce winds strong enough to cause damage; the same is not true of a cyclone. The very strongest tornadoes produce winds in excess of 300 mph, the fastest winds on earth.
The strong winds in a tornado are caused by the rapid rotation of air within the storm. As the rotating air spirals inward, it intensifies the wind speed near the center of the tornado, creating the strong and destructive forces that are characteristic of tornadoes. Temperature differences and pressure gradients within the storm also contribute to the formation of these powerful winds.
Gale tornado is a term used to describe a very strong tornado with wind speeds exceeding 200 mph. These tornadoes are capable of causing catastrophic damage and are often associated with severe weather events.