That is correct.
Older material
new crust forms at divergint bounderies where plates move apart magma oozes up and cools down and creates new crust and the old crust moves away and sucks in the earth
creates new crust and allows magma to come through.
divergent
Divergent plate boundaries. They pull away from each other, and magma rises from the gap, cools, and solidifies, which creates "new" crust.
Older material
Divergent boundaries create new crust.
New crust is formed at a divergent boundary
A ridge with transverse faults is formed, where new oceanic crust (seafloor) is formed.
A ridge with transverse faults is formed, where new oceanic crust (seafloor) is formed.
New crust is formed at divergent boundaries. While an equal volume of new crust is forming the Earth still remains the same size.
the divergent bounday forms new crust
New crust is being generated at divergent plate boundaries, where tectonic plates are moving away from each other. This process occurs at mid-ocean ridges, like the Mid-Atlantic Ridge, where magma rises up to create new oceanic crust as it solidifies.
new crust forms at divergint bounderies where plates move apart magma oozes up and cools down and creates new crust and the old crust moves away and sucks in the earth
New ocean crust is formed at mid-ocean ridges, where tectonic plates diverge and magma rises to the surface, solidifying into new crust. This process is known as seafloor spreading, and it plays a crucial role in plate tectonics and the Earth's geology.
false
divergent