"NARUTO"
Tensional stress pulls crust apart and stretches rock, causing it to deform and eventually break along fault lines. This type of stress commonly occurs at divergent plate boundaries where tectonic plates are moving away from each other.
The force that pulls an object toward earth also pulls the earth toward the object.The two forces are equal. Together, we refer to them as the force of gravity.
Gravity is the force that pulls or holds objects to the surface of the Earth.
Gravity constantly pulls on the Earth's crust, causing it to deform and shift over time. The force of gravity also plays a role in driving tectonic plate movements, which result in earthquakes, mountains, and other geological features. Overall, gravity contributes to the dynamic nature of the Earth's crust.
Tension stress pulls rocks apart, causing them to stretch and potentially break along fractures or faults. This type of stress is common in divergent plate boundaries and areas experiencing extensional tectonic forces.
Tensional stress force pulls on the crust and stretches rock. This type of stress occurs where tectonic plates are moving away from each other.
the type of stress that pulls the crust is called TENSION.
the type of stress that pulls the crust is called TENSION.
it may be gravity
tension
tension
tension
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.
Tension stretches or pulls apart the crust.
The force that pulls apart the crust is called tensional or extensional tectonic stress, which occurs at divergent plate boundaries where tectonic plates move away from each other. This pulling force can lead to the formation of rift valleys and mid-ocean ridges.
Stress that acts to pull materials (including rocks of the crust) apart is known as tensile stress.
Tensile stress.