No. Tornadoes have been recorded at size ranging from 3 feet wide to over 2 miles wide, have had wind speed ranging from 60 mph to over 300 mph, and have been known to have had forward speeds anywhere from stationary, to traveling at over 70 mph.
Usually, but not always, larger tornadoes are stronger.
No. Tornadoes vary greatly in strength, size, duration, speed of travel, and appearance.
Tornadoes can differ in size, strength, duration, and the path they take. The Enhanced Fujita Scale is used to categorize tornadoes based on their intensity, ranging from EF0 (weakest) to EF5 (strongest). Factors like wind speed, width of the tornado, and the extent of damage can vary from one tornado to another.
All tornadoes are produced by thunderstorms.
No. Although nearly all tornadoes move, tornadoes have ocassionally been documented to become stationary.
Travel speed, as it is called, should be the same in all welding positions. Travel speed determines the size of the weld.
Velocity is defined as the rate at which an object changes its position in a particular direction. It is calculated as the displacement of an object divided by the time taken to cover that distance. This definition holds true for all objects, regardless of their size or mass.
No, all plates are not the same size
Everything falls at the same speed. the only variable is drag. For instance a feather & a bowling ball would fall at the same speed in a vacuum, but not through the air.
no they not have the same speed
No. Tornadoes can range from narrow, threadlike vortices to cones to enormous wedges. See the related links for pictures.
All tornadoes have a common origin and are therefore basically the same. However the number and strength of the vortices produced can vary.
they all have the same speed