Stress forces affect rocks in various ways. The most common effects include cracking, breaking, shrinking or total change in their composition among others.
When tension stresses inside Earth pull rocks apart, fractures known as faults are formed. These faults can lead to earthquakes as accumulated stress is suddenly released along the fault plane.
When there is a divergent boundary, regardless if the plates are ocean-ocean or continental-continental, tensional stress pulls on the crust. Rocks have weaker tensional strength than compressive strength, so they are easier to pull apart.
The primary forces that act on rocks in Earth's crust are compression and tension. Compression occurs when rocks are squeezed together, often leading to folding and faulting. Tension is when rocks are pulled apart, creating fractures and rifts. These forces are generated by tectonic plate movements and can result in various geological features.
When the tension (stress) is great enough, they will fracture or deform.
The tension that pulls rocks apart is known as extensional stress. This type of stress occurs in tectonic settings where tectonic plates are moving away from each other, such as at divergent boundaries. As the rocks are pulled apart, they can create features like rift valleys or mid-ocean ridges, leading to volcanic activity and the formation of new crust.
The type of stress that causes rocks to pull apart is a tension stress. It is the major type of stress found in divergent plate boundaries.
When tension stresses inside Earth pull rocks apart, fractures known as faults are formed. These faults can lead to earthquakes as accumulated stress is suddenly released along the fault plane.
When there is a divergent boundary, regardless if the plates are ocean-ocean or continental-continental, tensional stress pulls on the crust. Rocks have weaker tensional strength than compressive strength, so they are easier to pull apart.
if you mean whene you give some one lots of tension <><><><><> Tension is stress, or voltage, to name just two. tension-is stress that streches or pull rocks apart
Tensional stress causes rocks to pull apart. This type of stress occurs when rocks are being pulled in opposite directions, leading to the stretching and extension of the rock mass. Over time, this can lead to the formation of faults and fractures in the rocks.
tension
When tension forces act on rocks, they can cause the rocks to stretch and eventually break. This type of stress can lead to the formation of faults, fractures, and rock rifts as the rocks are pulled apart. Over time, this can result in the creation of features like rift valleys or deep fractures in the Earth's crust.
Divergent Pull Ex.<--_-->
Rocks being pulled apart are under tension. This is found at divergent plate boundaries. It is a tension fault.
Normal Fault
because they are the same lengh
The primary forces that act on rocks in Earth's crust are compression and tension. Compression occurs when rocks are squeezed together, often leading to folding and faulting. Tension is when rocks are pulled apart, creating fractures and rifts. These forces are generated by tectonic plate movements and can result in various geological features.