No, high pressure alone cannot change an igneous rock into sedimentary rock; however, the reverse is true. High pressure can change sedimentary rock into igneous rock.
Sedimentary rocks change to metamorphic rocks through the process of metamorphism, where heat and pressure alter the original sedimentary rock's mineralogy, texture, and structure. This process generally occurs deep within the Earth's crust where rocks are subjected to high temperatures and pressures, causing the recrystallization of minerals and the development of new textures.
No
The conditions that change igneous or sedimentary rock into metamorphic rock include high temperature, high pressure, and the presence of chemically active fluids. These conditions cause the minerals in the original rock to recrystallize, forming new minerals and textures characteristic of metamorphic rocks.
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.
By extreme heat and pressure.
No, high pressure alone cannot change an igneous rock into sedimentary rock; however, the reverse is true. High pressure can change sedimentary rock into igneous rock.
weathering erosion transportation deposition compaction/cementation and lithification changes sediments to sedimentary rocks. High pressure and temperatures changes them to metamophic rocks
Sedimentary rocks can transform into metamorphic rocks through the process of heat and pressure. The heat and pressure cause the minerals within the sedimentary rock to recrystallize and form new mineral structures. This transformation can occur deep within the Earth's crust where temperatures and pressures are high.
yo bro I got u igneous turns into metamorphic because of extreme pressure and temperature and metamorphic turns into sedimentary rock because through weathering and erosion
Metamorphic rocks are formed from igneous, sedimentary, or other metamorphic rocks. The change is brought about by either contact with an intrusive plutonic body, or by enormous pressure and heat usually derived from lithospheric plate collisions.
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.
Sedimentary rocks change to metamorphic rocks through the process of metamorphism, where heat and pressure alter the original sedimentary rock's mineralogy, texture, and structure. This process generally occurs deep within the Earth's crust where rocks are subjected to high temperatures and pressures, causing the recrystallization of minerals and the development of new textures.
Sedimentary rocks could become metamorphic rocks if they are exposed to extreme heat and pressure deep in the Earth's crust. The rocks could come to the surface by volcanic activity or rising magma.
Heat and pressure are the two forces needed to create a metamorphic rock. Heat causes minerals within existing rocks to recrystallize, while pressure causes the minerals to align in specific directions, resulting in the formation of a metamorphic rock.
No
Heat & pressure