In excess of 200 mph at the peak, possibly as high as 250 mph.
176
miles per hour
The wind speed of a tornado is inferred from the severity of the damage it inflicts.
The estimated wind speed of an EF0 tornado is 65-85 mph.
The actual maximum wind speed for a tornado is not known. The strongest wind ever recorded in a tornado was 302 mph.
Wind speed is usually estimated based on the severity of damage that the tornado causes. In some cases it is measured by Doppler radar or, rarely, with an anemometer inside the tornado.
An EF0 tornado has winds of 65-85 mph.
In excess of 200 mph at the peak, possibly as high as 250 mph.
The Joplin tornado, which struck on May 22, 2011, was one of the deadliest tornadoes in U.S. history. It was rated as an EF5 tornado, the highest intensity on the Enhanced Fujita scale, with winds estimated at 200 to 250 miles per hour. The tornado left a path of destruction that stretched for 22 miles and caused extensive damage to neighborhoods, businesses, and schools in Joplin, Missouri.
The wind speed of a tornado is inferred from the severity of the damage it inflicts.
The estimated wind speed of an EF0 tornado is 65-85 mph.
If you mean to ask if the wind speed in a tornado can change, then yes. It happens all the time. No tornado is a peak intensity for the whole time it is on the ground. Many tornadoes will fluctuate in intensity multiple times On good example of this is the devastating Joplin, Missouri tornado. When it first touched down it was at EF0 strength, with maximum winds of 65-85 mph. 4 minutes later it was at EF4 strength, wind winds over 165 mph. Not long after that winds exceeded 200 mph. If you are asking about a tornado changing its forward speed, the answer is alos yes. The great Tri-State tornado varied in speed between 56 and 73 mph.
In most cases the wind speed of a tornado is estimated based on the severity of the damage it causes.
The actual maximum wind speed for a tornado is not known. The strongest wind ever recorded in a tornado was 302 mph.
Scientists usually use the severity of the damage a tornado causes to estimate its wind speed.
It started on May 21, 2011 when a low pressure system over the great plains generated a cold front along which severe thunderstorms formed. There was a great difference between the wind speed and direction at high and low altitudes (a condition called wind shear). This set those storms rotating, and some went on to produce tornadoes from that rotation. Tornadic activity from this system continued for several days. The strongest of those storms generated an EF5 tornado on May 22 that tragically struck Joplin, Missouri.
It started on May 21, 2011 when a low pressure system over the great plains generated a cold front along which severe thunderstorms formed. There was a great difference between the wind speed and direction at high and low altitudes (a condition called wind shear). This set those storms rotating, and some went on to produce tornadoes from that rotation. Tornadic activity from this system continued for several days. The strongest of those storms generated an EF5 tornado on May 22 that tragically struck Joplin, Missouri.
The largest tornado ever recorded was the El Reno, Oklahoma tornado of May 31, 2013. This tornado was 2.6 miles wide. Doppler radar measured a wind gust in the tornado at 296 mph, the second highest wind speed ever recorded in a tornado.
Tornado intensity is determined by damage, which is used to estimate wind speed. These wind speed estimates are used to sort a tornado into one of six categories from EF0 to EF5.