Igneous rocks that undergo weathering and erosion can break down into sediment. This sediment can then be transported and deposited, eventually forming sedimentary rocks through the process of compaction and cementation.
When igneous rocks are exposed on Earth's surface and undergo weathering, they break down into smaller particles and eventually become sedimentary rocks through the process of erosion, transportation, deposition, and lithification.
Igneous rock must weather and erode into smaller pieces and grains through processes like physical and chemical weathering. These sediments then accumulate, are buried, and undergo compaction and cementation to form sedimentary rock.
Two processes a rock must undergo before becoming an igneous rock are melting, where the rock is heated to a point where it turns into magma, and cooling, where the magma solidifies to form an igneous rock.
A sedimentary rock could undergo further compaction and cementation to become a metamorphic rock due to increased heat and pressure. It could also melt and solidify into an igneous rock through volcanic activity. If exposed to erosion, it could break down into sediments and form new sedimentary rocks through deposition and lithification.
The igneous rock gets weathered into sediment by wind, water, and ices. The sediment is deposited in a basin and buried. The pressure of burial and the heat inside Earth turns that sediment into stone.
When igneous rocks are exposed on Earth's surface and undergo weathering, they break down into smaller particles and eventually become sedimentary rocks through the process of erosion, transportation, deposition, and lithification.
erosion
Yes, after erosion and deposition.
Yes, an intrusive igneous rock can sometimes become a sedimentary rock through the process of weathering and erosion. As the rock is exposed at the Earth's surface, it can break down into sediments that will eventually undergo compaction and cementation to form a sedimentary rock.
Igneous rock granite can undergo weathering and erosion over time, breaking down into smaller particles. These particles can then be transported and deposited, leading to the formation of sedimentary rocks such as sandstone or shale. Additionally, if granite is subjected to extreme heat and pressure, it can undergo metamorphism and transform into a new type of rock called gneiss.
Sedimentary rock is formed when igneous rocks weather to sediments, then the sediments compact to sedimentary rock. When Igneous rocks are subjected to heat and pressure but do not melt, they become metamorphic rock. When igneous rocks are melted they make other igneous rocks.
lava and/or magma cools and forms igneous rocks. igneous rocks go through weather and erosion which forms sediments. these sediments are collected and compacted. this causes sedimentary rocks. the sedimentary rocks go through weather and erosion as well as being exposed to heat and pressure. this causes metamorphic rocks. metamorphic rocks go through heat and pressure and then they melt and become lava or magma again. this is called the rock cycle.
ingeous become sedimentary rocks after they undergo the process of weathering either mechanical, chemical, or biological.
erosion but it would take thousand of years
Igneous rock must weather and erode into smaller pieces and grains through processes like physical and chemical weathering. These sediments then accumulate, are buried, and undergo compaction and cementation to form sedimentary rock.
Two processes a rock must undergo before becoming an igneous rock are melting, where the rock is heated to a point where it turns into magma, and cooling, where the magma solidifies to form an igneous rock.
Igneous rocks can transform into sedimentary rocks through weathering and erosion, which breaks down the igneous rock into sediments that are then compacted and cemented together. Igneous rocks can also undergo metamorphism due to heat and pressure, resulting in the formation of metamorphic rocks. Igneous rocks can also melt and be recrystallized to form new igneous rocks through cooling and solidification.