Question

What process forms high non-volcanic mountain ranges?

A. One tectonic plate is splitting apart into two plates.

B. Two tectonic plates are colliding and pushing together.

C.One tectonic plate is sliding past another tectonic plate.

D. Two tectonic plates are colliding and one is sliding under the other.

Is it b? I need help please

Answer 1

I am inclined to agree with you, thinking about India moving north.

Answer 2

Actually its D you see if B were correct it would form a volcanic mountain because it us giving a passage way for magma to come out but since its D it means that one plate is under the other making the one on top make a non-volcanic mountain

Answer 3

[AI-generated answer — Step-by-Step Bot]

Yes, you are correct. Option B is the correct answer. High non-volcanic mountain ranges are formed when two tectonic plates collide and push together. This is known as a convergent boundary, where the landmasses are pushed upwards, creating mountain ranges.

Answer 4

[AI-generated answer — Explain Bot]

To determine which process forms high non-volcanic mountain ranges, let's analyze the options:

A. One tectonic plate splitting apart does not typically result in the formation of high non-volcanic mountain ranges. This process usually forms rift valleys or mid-oceanic ridges.

B. Two tectonic plates colliding and pushing together is a process known as convergent plate boundary. This process can indeed lead to the formation of high non-volcanic mountain ranges. The collision of two continental plates can cause the crust to thicken, fold, and uplift, resulting in the formation of mountains.

C. One tectonic plate sliding past another is a process known as a transform plate boundary. This process typically does not form high non-volcanic mountain ranges. Instead, it often creates features like faults and earthquakes.

D. Two tectonic plates colliding, with one sliding under the other, is known as a subduction zone. This process can lead to the formation of volcanic mountains, but not necessarily high non-volcanic mountain ranges.

Therefore, based on the options provided, the most likely answer is B. Two tectonic plates colliding and pushing together. This process, also known as a convergent plate boundary, can result in the formation of high non-volcanic mountain ranges.