The answer is that segments of Earth's crust bent and doubled over, and moving wind and water gradually shaped the rock into gently sloping domes.
One key to finding the answer is that fold mountain range is caused by the collision of plate at destructive plate boundary, causing the land to fold up under pressure from both sides.
Let's look into the choices one by one:
Melted rock called magma rose through holes in Earth's crust and gradually solidified as it cooled. - While volcanism is one of the features formed by collision,it cannot be applied in this case as there is no sign of volcanism.
Tectonic movement forced certain segments of Earth's crust downward and other segments upward in jagged chunks. - By no means would the crust move downwards under collision,thus this is not true.
One tectonic plate moved beneath another plate at a subduction zone, causing the rock to melt and rise above Earth's surface. -While molten rock subducted do produce magma,the mountain chain is not formed by volcanism, thus the statement cannot be applied.
Segments of Earth's crust bent and doubled over, and moving wind and water gradually shaped the rock into gently sloping domes.- The statement is correct as explained above. Differential weathering is also one of the reason why the mountain comes in chain.
Hope it helps!
Answer:
B
Explanation:
I guess the answer should be B. Factories produce lots of smoke that when go into contact with the sun, turns into ozone.
Then, ozone is a greenhouse gas.
Answer: Physical maps use color most dramatically to show changes in elevation. A palette of greens often displays elevations. Dark green usually represents low-lying land, with lighter shades of green used for higher elevations. In the next higher elevations, physical maps often use a palette of light brown to dark brown.
To converge means to come together: so in a convergent fault two tectonic plates would come together and collide with each other, this means that the best answer is "<span> crash into one another" - that's why they're also called destructive plate boundaries. </span>
