Because continental drift makes erosion happen due to deposition and affeft the plant life and animal life. =)
Over millions of years, the movement of tectonic plates has caused Pangaea to break apart into the continents we have today. This process, known as continental drift, continues to slowly reshape the Earth's surface. Various geological forces such as earthquakes, volcanic activity, and erosion play a role in shaping the landscapes we see today.
Chemical composition of the rock does not play a role in erosion, as erosion is primarily driven by forces like water, wind, and ice that physically wear down and transport rock particles. In weathering, factors such as temperature, moisture, and type of vegetation can contribute to the breakdown of rock material.
The idea of continental drift theorizes Earthâ??s continental landmasses have drifted over time across the ocean bed. The initial clue behind this theory was the fact that separate continents seem to fit together like puzzle pieces.
The shape of continents is the result of tectonic plate movement over millions of years. This movement causes landmasses to drift apart, collide, or slide alongside each other, shaping the continents as we see them today. Erosion and other natural forces also play a role in shaping the landforms on the continents.
Erosion on the Moon's surface is primarily caused by micrometeorite impacts, solar wind, and thermal cycling. There is no significant erosion on the Moon due to factors like water, wind, or ice that play a major role in erosion processes on Earth.
No, the Earth's magnetic poles are not responsible for continental drift. Continental drift is primarily driven by the movement of tectonic plates in the Earth's lithosphere. The Earth's magnetic field does play a role in plate tectonics through magnetic stripes on the ocean floor, but it is not the primary cause of continental drift.
Fossils play a role in understanding Pangaea and continental drift by demonstrating that similar organisms lived on now widely separated continents, suggesting that these landmasses were once connected. Fossils of the same species found on continents that are now far apart provide evidence that these landmasses were once part of a single supercontinent. By studying the distribution of fossils across different continents, scientists can reconstruct the ancient movements of landmasses and support the theory of continental drift and the existence of Pangaea.
Over millions of years, the movement of tectonic plates has caused Pangaea to break apart into the continents we have today. This process, known as continental drift, continues to slowly reshape the Earth's surface. Various geological forces such as earthquakes, volcanic activity, and erosion play a role in shaping the landscapes we see today.
Weathring and erosion .
Magnets do not play any role in erosion. Glaciers are ony of many things that cause erosion.
Littoral drift is the natural process of sediment transport along the shoreline by waves, currents, and tides. It plays a crucial role in shaping coastal landforms and can contribute to erosion or deposition of sediment along a coastline. Understanding littoral drift is important for coastal management and engineering to mitigate erosion and protect coastal infrastructure.
President of second Continental Congress
he led the army and other things.
Chemical composition of the rock does not play a role in erosion, as erosion is primarily driven by forces like water, wind, and ice that physically wear down and transport rock particles. In weathering, factors such as temperature, moisture, and type of vegetation can contribute to the breakdown of rock material.
The idea of continental drift theorizes Earthâ??s continental landmasses have drifted over time across the ocean bed. The initial clue behind this theory was the fact that separate continents seem to fit together like puzzle pieces.
The shape of continents is the result of tectonic plate movement over millions of years. This movement causes landmasses to drift apart, collide, or slide alongside each other, shaping the continents as we see them today. Erosion and other natural forces also play a role in shaping the landforms on the continents.
Artwork by Val Britton (see related link below) The Earth's oceans being fluid cannot drift! Continental drift is the very slow movement of continental plates floating on the Earth's mantle.