Erosion and deposition occur side by side because erosion involves the removal and transportation of sediments by forces like wind, water, and ice, while deposition involves the settling and accumulation of these sediments in a new location. The same natural forces that cause erosion can also lead to deposition as they transport and redistribute sediments across the Earth's surface.
Sedimentary rock forms after erosion and deposition occur. Erosion breaks down existing rocks into sediments that are then transported, deposited, and compacted over time to form sedimentary rocks.
The sun does not have wethering, erosion, or deposition because it does not have a solid surface
Weathering breaks down rocks into smaller pieces, which are then transported by erosion to new locations. Deposition occurs when the eroded material settles in a new location, building up layers of sediment. So, the order is weathering, erosion, and then deposition.
Gravity is the main force responsible for causing erosion and deposition in landslides, mudslides, and rockfalls. When the force of gravity overcomes the resistance of rocks or soil, these mass movements occur, leading to erosion and deposition of material downslope.
Deposition can occur through the process of erosion, where sediment is deposited by wind, water, or ice. It can also occur through chemical processes, when minerals precipitate out of solution and accumulate on surfaces.
first the weathering happens which causes an erosion which makes deposition.
Sedimentary rock forms after erosion and deposition occur. Erosion breaks down existing rocks into sediments that are then transported, deposited, and compacted over time to form sedimentary rocks.
The sun does not have wethering, erosion, or deposition because it does not have a solid surface
Weathering breaks down rocks into smaller pieces, which are then transported by erosion to new locations. Deposition occurs when the eroded material settles in a new location, building up layers of sediment. So, the order is weathering, erosion, and then deposition.
Gravity is the main force responsible for causing erosion and deposition in landslides, mudslides, and rockfalls. When the force of gravity overcomes the resistance of rocks or soil, these mass movements occur, leading to erosion and deposition of material downslope.
Deposition can occur through the process of erosion, where sediment is deposited by wind, water, or ice. It can also occur through chemical processes, when minerals precipitate out of solution and accumulate on surfaces.
weathering then erosion ,then deposition
Erosion and deposition shapes the Earth's surface.
Weathering and erosion do not occur on the Moon due to lack of atmosphere and liquid water. However, there is some deposition due to impact events from meteoroids and micrometeoroids that create craters and affect the surface.
weathering then erosion ,then deposition
Tributaries can both erode and deposit sediment. In the upper reaches of a tributary, erosion may occur as the flowing water picks up and moves sediment. Closer to the main river, deposition may happen as the velocity of the water slows down and sediment is dropped.
Yes, erosion can still occur in a lake through processes like weathering of the lake shoreline or sediment movement by underwater currents. Deposition can also occur in still water when sediments settle on the lakebed due to gravity or when carried by inflowing streams.