The essential force in the metamorphic rock formation is pressure. The needed changes are driven by changes in the physical measures of temperature and pressure. As these conditions change, alterations in the composition of the minerals and textures follow.
Metamorphic rocks are formed from igneous, sedimentary and older metamorphic rocks that are introduced to extreme temperature and pressure. Because of the extreme temperature and pressure, rocks go through a significant chemical or physical change, turing them into metamorphic rocks.
Pressure and heat from being buried under mountains.
All of them, as long as they are in the right conditions.
Through weathering and mechanical forces, an igneous rock can be pulverized into silt, sand and other fine particles. Over time . . . a LOT of time . . . a situation can arise that causes these particles to be squeezed in layers into sedimentary rock, then subjected to great heat deep under Earth's surface where they undergo the transformation to metamorphic rocks.
Heat, along with applied pressures, either from depth of burial or from tectonic forces on rock.
Metamorphic rock must first turn into sediment through uplift, weathering, erosion and deposition before the sediments can undergo lithification and become sedimentary rock. Further compaction, pressure, and heat can turn it into metamorphic rock. In order to change into igneous rock it would need to be buried so deep in the earth that the heat partially melts the metamorphic rock forming magma. Then the magma would need to ascend, cool, and undergo recrystallization to form igneous rock.
Sedimentary rock formations are those which are formed by layer upon layer of sediment being laid down by natural forces. It is the stone in which history is hidden.
heat and pressure change the sedimentary rock into metamorphic rock
Pressure and heat from being buried under mountains.
Metamorphic rocks are formed from igneous, sedimentary and older metamorphic rocks that are introduced to extreme temperature and pressure. Because of the extreme temperature and pressure, rocks go through a significant chemical or physical change, turing them into metamorphic rocks.
Metamorphic rocks are formed from igneous, sedimentary and older metamorphic rocks that are introduced to extreme temperature and pressure. Because of the extreme temperature and pressure, rocks go through a significant chemical or physical change, turing them into metamorphic rocks.
All of them, as long as they are in the right conditions.
Through weathering and mechanical forces, an igneous rock can be pulverized into silt, sand and other fine particles. Over time . . . a LOT of time . . . a situation can arise that causes these particles to be squeezed in layers into sedimentary rock, then subjected to great heat deep under Earth's surface where they undergo the transformation to metamorphic rocks.
Heat, along with applied pressures, either from depth of burial or from tectonic forces on rock.
A nonconformity is a place where sedimentary rocks are found on top of eroded igneous or metamorphic rocks. The igneous or metamorphic rocks can be pushed up by forces inside the Earth. Then, erosion can remove some of the rock. Later, sediment may be deposited on top of the eroded rock.
Sedimentary rocks are formed when other rocks (igneous, metamorphic, or sedimentary) are weathered and eroded and their sediments are compacted and cemented together. Metamorphic rocks can be formed when heat and pressure is applied to any type of existing rock. Igneous rocks are formed when magma cools. The magma can be made up of melted rocks of any kind (sedimentary, igneous, or metamorphic). The cycle repeats itself all the time and all of the rocks can come from any other kind of rock.
Sedimentary rock is formed generally at low temperature and pressure conditions.Therefore a change in this conditions to higher levels triggers mineralogical change.The driving forces for metamorphism are changes in temperature, pressure, and composition of the environment or strong deformation.These changes cause recrystallization in the solid state as the rock changes toward equilibrium with the new environment.Hence, formation of metamorphic rocks.
Heat is always present in the formation of metamorphic rocks.
No. Since the moon is not geologically active it cannot produce metamorphic rock and since it has no forces of erosion and deposition it cannot produce sedimentary rock. As a result, all the rocks on the moon are igneous