answersLogoWhite

0

Erosion does, especially erosion from glaciers.

User Avatar

Wiki User

13y ago

What else can I help you with?

Continue Learning about Earth Science

How does a mountain lose every 1000years?

Mountains lose material through erosion caused by natural processes such as weathering, mass wasting, and transportation of sediment by water, wind, or ice. This loss occurs over long periods of time and can result in changes to the mountain's shape and size.


How much does a mountain lose every 1000 years?

The rate at which a mountain erodes can vary widely depending on factors such as climate, geology, and human activity. On average, a mountain may lose several millimeters to a few centimeters of its height every 1000 years due to processes like weathering, erosion, and tectonic activity. However, some mountains erode much faster while others remain relatively stable over long periods of time.


How much does a mountain lose every 1000 years due to erosion?

The rate of erosion can vary greatly depending on factors such as climate, geology, and human activities. On average, a mountain may lose a few millimeters to a few centimeters of its height every 1000 years due to erosion. However, some mountains may erode more quickly, especially in regions with high rainfall, steep slopes, or volcanic activity.


Where do rain shadows happen?

An area having relatively little precipitation due to the effect of a barrier, such as a mountain range, that causes the prevailing winds to lose their moisture before reaching it. An area having relatively little precipitation due to the effect of a barrier, such as a mountain range, that causes the prevailing winds to lose their moisture before reaching it.


What is a structure built up by stream deposits at the foot of a mountain is called?

A structure built up by stream deposits at the foot of a mountain is called an alluvial fan. Alluvial fans form when rivers or streams carrying sediment from the mountains suddenly lose velocity and deposit the sediment in a fan-shaped pattern.