False. Where I live there are many valleys carved out by glaciers, some of which are now full of water. A nearby city is built on the rubble dumped by a retreating glacier and the local soil is mainly sand and rock. Any good soil was scoured from the hills and valleys long ago.
Tornadoes do cause some soil erosion, though it is rarely significant. Eroded material must eventually by deposited, but this does not occur by any mechanism directly related to tornadoes.
Weathering and erosion very rarely takes minuets for weathering and erosion to take effect. It usually takes millions of years for a rock to get weathered and eroded.
It requires extreme heat and pressure, found in the earth's interior. This rock is eventually exposed at the surface due to uplift and erosion.
a Desert
Relative humidity rarely reaches 100% humidity when air is polluted. This is do to emissions of carbon dioxide and sulfates, and is known as haze.
Some volcanoes are very tall mountains, reaching altitudes where temperatures rarely climb above freezing. Snow that falls on these mountains does not melt but instead piles up, eventually forming glaciers.
rarely
The surface temperature is VERY cold. It rarely gets up to the freezing point of water.
Meteorite craters.
rarely but it is feasible
Depends where you are. On the mountain tops there are permanent glaciers. In the valleys it often tops 30°C in summer, but rarely goes below -10°C in winter.
The daytime SURFACE temperature is about 80 F during rare summer days, to -200 F at the poles in winter. The AIR temperature, however, rarely gets much above 32 F.
Tornadoes do cause some soil erosion, though it is rarely significant. Eroded material must eventually by deposited, but this does not occur by any mechanism directly related to tornadoes.
Weathering and erosion very rarely takes minuets for weathering and erosion to take effect. It usually takes millions of years for a rock to get weathered and eroded.
The moon because no one sees when it changes.
It requires extreme heat and pressure, found in the earth's interior. This rock is eventually exposed at the surface due to uplift and erosion.
The Sun is much much hotter than the Earth. The Sun's surface temperature is approximately 5,800 K. The surface temperature of the Earth, by contrast, rarely exceeds 331ºK