The heat source that drives convection currents inside the Earth is primarily from the decay of radioactive elements within the Earth's core. This heat causes the material in the mantle to become less dense and rise, creating convection currents that drive the movement of tectonic plates.
The source of energy that drives convection within the Earth's atmosphere is primarily solar radiation. The sun heats the Earth's surface unevenly, causing air to warm and rise in some areas and cool and sink in others, creating convection currents. This process is responsible for distributing heat and moisture throughout the atmosphere.
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 main source of energy that drives weather and climate is the sun. Solar radiation heats the Earth's surface, creating temperature differences that lead to the development of weather patterns and climate systems. This energy drives processes such as evaporation, convection, and atmospheric circulation, influencing global weather patterns and climate dynamics.
Asthenosphere
The heat source for the convection currents in the mantle is primarily the heat leftover from Earth's formation and the heat produced by radioactive decay of elements within the mantle. The heat from the Sun does not directly drive mantle convection, although it does play a role in surface processes like weather and climate.
Mantle convection
Mantle convection
Mantle convection
radiation received from the Sun!! :D
When a convection current detector comes near a heat source, it will detect the movement of air or fluid caused by the temperature difference. This movement creates a convection current around the heat source, which the detector can measure to indicate the presence and intensity of the heat source.
The source of energy that drives convection within the Earth's atmosphere is primarily solar radiation. The sun heats the Earth's surface unevenly, causing air to warm and rise in some areas and cool and sink in others, creating convection currents. This process is responsible for distributing heat and moisture throughout the atmosphere.
When the convection current detector comes near a heat source like a candle, the heated air rises due to convection, causing the paper spiral to move or spin. This movement is a result of the hot air near the heat source displacing the cooler surrounding air, creating a convection current that affects the paper spiral's position.
The energy source that drives the processes forming igneous and metamorphic rocks is primarily found within the Earth's interior. It originates from heat generated by radioactive decay in the mantle and core, which drives convection currents that bring hot molten material to the surface and causes interactions that lead to rock formation.
Radioactive decay - mainly of potassium.
The difference in temperature and density is the cause of convection currents in the earths mantle. Convection currents are the flow that transfers heat within a fluid.
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.
A convection current in air will have warmer air near to the heat source and this will rise. Then it gradually loses heat to the surroundings and sinks again, so there is warmer air in parts of the current and cooler air in other parts.