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Some metamorphic rocks, like gneiss, can look entirely different from schist, despite both originating from similar parent rocks Geological activities, particularly at tectonic plate boundaries, lead to these metamorphic processes. In summary, while metamorphic rocks can maintain certain features from their preexisting forms, they typically exhibit distinct new properties due to the metamorphic process.

Metamorphic rocks form primarily deep within earth's crust under conditions of high pressure and temperature Most metamorphic rocks form between 10 and 100 kilometers beneath earth's surface, where high temperature and pressure cause changes in existing rocks Common examples include slate, formed from shale, and gneiss, developed from granite

While metamorphic rocks are formed deep.

Metamorphic rocks do not form at the earth’s surface Instead, they are created in conditions far below where temperatures and pressures are sufficient to induce change This geological process is a significant aspect of understanding the rock cycle, where rocks continuously change from one form to another over geological time scales. Here are the key points about metamorphic rocks

Metamorphic rocks form at significant depths under high temperatures and pressures The process involves recrystallization and the rearrangement of minerals rather than melting. Metamorphic rocks typically do not melt Instead, they undergo changes that transform their mineral composition and texture, leading to various types of metamorphic rocks such as slate, marble, and schist depending on their parent material and the conditions under which they formed.

Upload your school material for a more relevant answer sometimes, not always **metamorphic rocks ** look like the preexisting rock from which they form

In spite of having undergone significant changes from their initial igneous, sedimentary, or earlier metamorphic forms, metamorphic rocks began as another kind of rock. Metamorphic rocks form when existing rocks change due to high temperatures, pressures, and chemically active fluids, typically occurring deep within the earth This process, known as metamorphism, alters the rock's mineral composition and texture without melting Examples include granite transforming into gneiss and limestone into marble.

For example, shale, a sedimentary rock, can change into slate, a metamorphic rock, and their appearances differ The extent to which metamorphic rocks resemble their protoliths can vary greatly Some metamorphic rocks maintain some characteristics of their parent rocks while others can be quite different. How metamorphic rocks form metamorphic rocks are formed from existing sedimentary, igneous, or even other metamorphic rocks when they undergo changes due to high temperature and pressure deep within the earth's crust

This process is known as metamorphism, where the original rock, called the parent rock, is altered without melting.

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