faulting
Compression and tension can indeed affect the thickness of the Earth's crust. Compression can thicken the crust by folding and faulting, while tension can cause stretching and thinning of the crust through processes like rifting and faulting. These tectonic forces play a significant role in shaping the Earth's crust over geological time scales.
Compression is a force that changes Earth's crust by causing rocks to squeeze together. This can result in the bending, folding, or faulting of the crust as the rocks are pushed and deformed. Over time, compression can lead to the formation of mountain ranges.
compression
compression
compression
Compression and tension can indeed affect the thickness of the Earth's crust. Compression can thicken the crust by folding and faulting, while tension can cause stretching and thinning of the crust through processes like rifting and faulting. These tectonic forces play a significant role in shaping the Earth's crust over geological time scales.
I think its thickness that's wat i put on my hw
Compression is a force that changes Earth's crust by causing rocks to squeeze together. This can result in the bending, folding, or faulting of the crust as the rocks are pushed and deformed. Over time, compression can lead to the formation of mountain ranges.
compression
No. Low compression does not effect timing but timing can affect compression.
Shearing, tension, and compression work over millions of years to change the shape and volume of rock. Those are types of stress.
Shearing, tension, and compression work over millions of years to change the shape and volume of rock. Those are types of stress.
Compression causes rocks to be pushed together, leading to folding and faulting in the crust, often resulting in mountain building. Tension, on the other hand, causes rocks to be pulled apart, resulting in the formation of rift valleys and normal faulting. Both compression and tension are important in shaping the Earth's crust and can lead to the formation of various geological features.
compression
compression
compression
Compression forces from tectonic plate movements and collisions cause Earth's crust to be squeezed, making it shorter and thicker. This compression leads to the formation of mountain ranges and other geological features as the crust is pushed together.