Through convection. Since a hot object rises over a cold object (assuming they are the same object), the plastic rock in the mantle allows vents to bring up heat from deep within.
visible light
It would probably reach an area where it is sunny when the other area is cloudy
The moon has reflective soil on its surface so when the earths shadow falls on it the suns rays don't reach the surface so making the moon shrink or grow
The greatest amount of solar energy reaches the surface of the ocean near the equator. This is because the sun's rays are more direct at the equator, resulting in higher solar intensity. Additionally, the equatorial regions generally experience less cloud cover, allowing more sunlight to reach the surface of the ocean.
It does, but in very small amounts because it is absorbed by Earths atmosphere. The ozonosphere blocks most of the UV radiation from striking the surface of earth.
volcanoes are the main source geothermal energy is not used that much today because the cost of getting the lava from the volcano but also cracks in earths plate boundaries can produce geothermal energy because magma comes out of the earths mantle
You have to have a source of geothermal energy within reach, which not many cities have.
More energy will reach the surface on a sunny day. Clouds reflect about half of the light that hits them, and this energy goes back into space.
visible light
Geothermal energy continually flows outward from within the earth. This heat energy comes mostly from the core, where temperature may reach 7000°C. The earth's crust is 5 to 75 km thick, and the heat can be used as an energy source where it is available near the surface because there is a thin crust or a fracture zone.
It would probably reach an area where it is sunny when the other area is cloudy
L waves are formed when P&S waves reach the surface.
L waves are formed when P&S waves reach the surface.
by cutting down land and trees to dig holes in earth to reach the geothermal energy
No it is not true. Many, many meteorites reach the earth's surface.
when uplifted rocks reach the Earth's Surface, weathering, erosion, and deposition begin
energy reachs earth surface through seismic waves: P waves S waves and Surface waves