Weathering and erosion of the weather materials, their transport and deposition as new sediments.
Subduction and high pressure.
Sedimentary rocks must be subjected to high temperature and pressure within the Earth's crust to become metamorphic rocks. This process, known as metamorphism, causes changes in the mineral composition and texture of the sedimentary rock, resulting in the formation of metamorphic rocks.
yes
metamorphic
Metamorphic rocks can form from both igneous and sedimentary rocks through the process of heat and pressure, but they are more commonly associated with forming from existing metamorphic or sedimentary rocks. Igneous rocks can indirectly contribute to the formation of metamorphic rocks by heating up and altering surrounding rocks, leading to the formation of new metamorphic rocks.
Heating and pressurization changes igneous and sedimentary rocks into metamorphic rock.
Sedimentary rock can be transformed into metamorphic rock through the process of metamorphism, which involves high temperature and pressure deep within the Earth's crust. This causes the minerals in the sedimentary rock to recrystallize and reorganize, resulting in the formation of a new rock with different properties. The original sedimentary layers may still be visible in the metamorphic rock, but they will have undergone significant changes.
igneous, sedimentary, metamorphic
Weathing and erosion.
Metamorphic rocks can form from both igneous and sedimentary rocks
Metamorphic rocks can form from both igneous and sedimentary rocks
Metamorphic rocks can be changed into sedimentary rocks through the process of weathering, erosion, transportation, and deposition. In this process, the metamorphic rock is broken down into sediments through physical or chemical weathering and then transported by natural agents like water, wind, or ice to be deposited in layers. Over time, these sediments are compacted and cemented together to form a new sedimentary rock.