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well it isn't that important but it is just there i guess because when it goes under heat and pressure it will turn from sedimentry rock to metammorphic rock so i would say not so important but if you think wrong please correct me!

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14y ago

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What is the endpoint of a rock cycle?

The endpoint of the rock cycle is the formation of a new rock from the weathering, erosion, deposition, compaction, and cementation of existing rocks. This process is continuous and cyclical, with rocks transitioning between the three types: igneous, sedimentary, and metamorphic rocks.


Does a rock go through the complete rock cycle by changing from igneous rock to sedimentary to metamorphic?

Yes, it can. However, an igneous rock can change to a metamorphic rock skipping sedimentary: the tectonic plates can push igneous rock deep into the ground, forming metamorphic rock. Sedimentary can form metamorphic, metamorphic can form magma or lava by melting and/or erupting and then turn into igneous. Igneous forms sedimentary with erosion, deposition compaction, and cementation.


What are the steps of the rock cycle if it starts with Sedimentary rock is pulled into Earth's interior by tectonic forces?

If sedimentary rock is pulled into Earth's interior by tectonic forces, it will undergo heat and pressure, transforming into metamorphic rock. Further movement and heating could melt the metamorphic rock, turning it into magma. The magma can then cool and solidify to form igneous rock, completing the rock cycle.


Type of energy used to help convert rocks into metamorphic rocks in the rock cycle?

Heat and pressure are the primary forms of energy that help convert rocks into metamorphic rocks in the rock cycle. The intense heat and pressure cause the existing rock to recrystallize and change its structure and mineral composition, resulting in the formation of metamorphic rocks.


What happens each time a metamorphic rock is exposed to extreme heat and pressure?

Metamorphic Rock Metamorphism means to change form; this is exactly what metamorphic rocks do. This paper will take a look at the Earth's rock cycle to examine exactly where the metamorphic rock fits into it. It will also look at how metamorphic rocks are formed and the relationship between metamorphic rocks and igneous rock and sedimentary rocks. This paper will examine the geological characteristics and materials of metamorphic rocks, and examine some examples of metamorphic rocks and will describe mineral composition of some examples and explain its economic uses. The Rock Cycle The rock cycle helps people to understand the starting point of the igneous, sedimentary, and metamorphic rocks. In addition to explaining how each of the rocks are connected through the process. The rock cycle explains to us how the Earth assists in changing one type of rock into another type of rock. The process begins when magma, found from beneath the Earth's surface or from a volcano, cools and crystallizes. This process forms rocks called igneous rocks. When an igneous rock is exposed to weathering and erosion and compacted by the weight of the groundwater, which is otherwise known as lithification, it creates a sedimentary rock. When sedimentary rocks are buried deep within the Earth and evolve into mountains or are exposed to extreme pressure and intense heat it will then turn into the last cycle of rock, the metamorphic rock. Metamorphic rocks can even evolve from other metamorphic rocks. How Metamorphic Rocks Are Formed Within the Rock Cycle Metamorphic rocks are created when they are exposed to extreme heat, pressure, and chemicals. Rocks are usually exposed to extreme heat, pressure, and chemicals at the same time. Metamorphism occurs in one of two situations, contact metamorphism or regional metamorphism. Contact metamorphism occurs when a rocks experience a rise in temperature when it is exposed to magma. Heat is the most important source of metamorphism because... [continues]