Search results
Ridge push contributes to plate movement by creating a gravitational force that encourages tectonic plates to slide away from mid-ocean ridges. As new oceanic crust forms and elevates the ridge, it creates a slope that aids in this movement.
Ridge push force and slab pull are two key forces that drive tectonic plate movements. Ridge push occurs at mid-ocean ridges, where newly formed, elevated oceanic crust slides down due to gravity, while slab pull takes place at subduction zones where denser oceanic plates sink into the mantle.
Ridge push (also known as gravitational slides or sliding plate force) is a proposed driving force for plate motion in plate tectonics that occurs at mid-ocean ridges as the result of the rigid lithosphere sliding down the hot, raised asthenosphere below mid-ocean ridges.
Definition. Ridge push is a geological process that occurs at mid-ocean ridges, where the elevated position of the ridge causes the surrounding tectonic plates to be pushed away from the ridge and towards subduction zones.
ridge push: the force due to the buoyancy of the hot mantle rising to the surface beneath the ridge. viscous drag: the force opposing motion of the plate and slab past the viscous mantle underneath or on the side. This force balance is given by: Fridge − push + Fslab − pull − Fviscous − drag = 0.
Ridge push (also known as gravitational slides or sliding plate force) is a proposed driving force for plate motion in plate tectonics that occurs at mid-ocean ridges as the result of the rigid lithosphere sliding down the hot, raised asthenosphere below mid-ocean ridges.
ridge-push. The hypothetical force, caused by the horizontal spreading of the near-surface asthenosphere at constructive margins, which is thought to be one of the two main driving forces for the movement of lithospheric plates (the other is slab-pull).
