study island answer: tornadoes
The source of energy that drives the movement of the lithospheric plates is believed to be the heat generated by radioactive decay in the Earth's interior, primarily in the mantle. This heat creates convection currents that cause the plates to move over the semi-fluid asthenosphere beneath them.
The movement of lithospheric plates is primarily driven by the process of plate tectonics. This movement is caused by the heat-driven convection currents in the Earth's mantle. As these currents circulate, they drag the overlying lithospheric plates along with them, causing the plates to move over time.
The study of lithospheric plates is called plate tectonics. It focuses on the movement and interactions of the Earth's lithospheric plates, which form the outer shell of the Earth. Plate tectonics help explain processes like earthquakes, volcanoes, and mountain building.
Pangaea was a supercontinent that existed about 335 million years ago, formed by the movement of lithospheric plates. As Pangaea broke apart, the lithospheric plates moved to their current positions, resulting in the Earth's current continents and ocean basins. This movement also influenced the distribution of different types of lithospheric rocks around the world.
The boundaries between lithospheric plates are most effectively outlined by features such as earthquakes, volcanic activity, and the distribution of mountain ranges. These boundaries can be further classified into divergent, convergent, and transform plate boundaries based on the type of plate movement occurring.
tornadoes
No, the wording of you question is not true. However the movement of the lithospheric plates is related to the formation of volcanoes.
The movement and/or interaction of lithospheric plates.
No, tidal drift is caused by the gravitational pull of the Moon and Sun on Earth's oceans, and it does not directly cause the movement of lithospheric plates. The movement of lithospheric plates is driven by the convection currents in the mantle beneath the Earth's crust.
5 centimeters.
Tornadoes.
The source of energy that drives the movement of the lithospheric plates is believed to be the heat generated by radioactive decay in the Earth's interior, primarily in the mantle. This heat creates convection currents that cause the plates to move over the semi-fluid asthenosphere beneath them.
Fill the gap between separating plates.
The heat transfer in lithospheric plates is called conduction. This process involves the transfer of heat through the solid material of the plates due to the movement of vibrating particles.
True
No, the Earth's magnetic field does not directly affect the movement or behavior of lithospheric plates. The movement of lithospheric plates is primarily driven by processes such as mantle convection and seafloor spreading. The magnetic field does play a role in Earth's geology by providing valuable information about past plate movements recorded in rocks.
Plasticity means that there is enough movement in the asthenosphere to allow thelithospheric plates to move.