No, it doesn't.
what processes must sedimentary rock go through to become a metamorphic rock
Any type of rock can become metamorphic.
Limestone typically metamorphoses into marble after undergoing the metamorphic process. This transformation involves the recrystallization of calcite minerals in limestone into larger crystal structures, resulting in the formation of marble's distinctive crystalline texture and composition.
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.
what processes must sedimentary rock go through to become a metamorphic rock
No, it doesn't.
compaction
Yes, any type of rock can become a metamorphic rock through the process of heat and pressure transforming its mineral composition and texture. This includes igneous, sedimentary, and even existing metamorphic rocks.
what processes must sedimentary rock go through to become a metamorphic rock
Metamorphic rock "meta-morphs," or changes, from other rock forms, typically sedimentary, through a combination of heat, pressure, and of course time.
Metamorphic rock can not become igneous rock, however igneous rock can become metamorphic. This process happens over time as the rocks are shifted, compressed and heated by the Earth.
Any type of rock can become metamorphic.
no because metamorphic rock can only become something else when melted
A sedimentary rock that may become quartzite is sandstone. Through the process of metamorphism, the sandstone can be transformed into quartzite, which is a hard, non-foliated metamorphic rock composed almost entirely of quartz crystals.
Through exposure to heat and pressure at depth.
Limestone typically metamorphoses into marble after undergoing the metamorphic process. This transformation involves the recrystallization of calcite minerals in limestone into larger crystal structures, resulting in the formation of marble's distinctive crystalline texture and composition.