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An earthquake causes metamorphic rock deep inside a mountain to be pushed up to the mountains surface What type of rock will the metamorphic rock most likely transform into next?
The metamorphic rock will most likely transform into sedimentary rock next. The uplifting process will expose the rock to erosion and weathering, breaking it down into sediments that will then be deposited and lithified to form sedimentary rock.
What type of rock is most likely to form at a transform boundary?
Rocks that form at transform boundaries are typically fault rocks, such as fault breccia and mylonite. These rocks are characterized by intense deformation due to the shearing forces present at transform boundaries.
Where would you most likely find metamorphic rock?
Transform boundry
Changing pressure and temperature can transform sedimentary rock into what other type of rock?
Changing pressure and temperature can transform sedimentary rock into metamorphic rock. This process involves the recrystallization of minerals in the rock due to intense heat and pressure, creating a new structure and texture.
If the sedimentary rock limestone is subjected to metamorphism what metamorphic rock will likely form?
Limestone can metamorphose into marble, a regional metamorphic rock, or into skarn, a contact metamorphic rock.
What type of rock is most likely to form a transform boundary?
Metamorphic rock
What type of rock will the metamorphic rock most likely transform into next?
A sedimentary rock.
An earthquake causes metamorphic rock deep inside a mountain to be pushed up to the mountains surface What type of rock will the metamorphic rock most likely transform into next?
The metamorphic rock will most likely transform into sedimentary rock next. The uplifting process will expose the rock to erosion and weathering, breaking it down into sediments that will then be deposited and lithified to form sedimentary rock.
How can any rock be transformed into metamorphic rock?
Heat and pressure transform rock to metamorphic rock.
What type of rock is most likely to form at a transform boundary?
Rocks that form at transform boundaries are typically fault rocks, such as fault breccia and mylonite. These rocks are characterized by intense deformation due to the shearing forces present at transform boundaries.
What processes transform metamorphic rock into sedimentary rocks?
Heat and pressure change the rock into a metamorphic rock
What processes can transform metamorphic rock into sediment?
weathering and erosion
What type(s) of rock ar most likely to be the parent rock of a metamorphic rock?
Metamorphic rocks typically originate from either igneous or sedimentary parent rocks. Igneous rocks, such as granite, can undergo metamorphism to form gneiss, while sedimentary rocks like limestone can transform into marble. Additionally, some metamorphic rocks can also originate from other metamorphic rocks through further metamorphic processes. The conditions of temperature and pressure during metamorphism play a crucial role in determining the characteristics of the resulting metamorphic rock.
Where would you most likely find metamorphic rock?
Transform boundry
What type of rock is most likely to form at a tarnsform boundary?
At a transform boundary, the most likely type of rock to form is sedimentary rock, as the tectonic plates slide past one another, causing friction and deformation. However, due to the intense pressure and stress associated with these movements, metamorphic rocks can also form from the alteration of existing rocks. The continuous movement can lead to the creation of fault lines, where crushed and fragmented rock material accumulates. Overall, while sedimentary and metamorphic rocks are predominant, the dynamic nature of transform boundaries can lead to a variety of rock types in the surrounding areas.
Changing pressure and temperature can transform sedimentary rock into what other type of rock?
Changing pressure and temperature can transform sedimentary rock into metamorphic rock. This process involves the recrystallization of minerals in the rock due to intense heat and pressure, creating a new structure and texture.
Which metamorphic rocks are most likely to have formed the highest temperatures and pressures?
Gneiss is a metamorphic rock that meets those criteria.
