a below the surface question is a question that describes a lot and you have to think hard about it : not a yes or no question
proof: http://www.buzzfeed.com/jonah/whats-wrong-with-this-picture-friday-fun
under
If you were 100 km below the surface you would be in the upper mantle / asthenosphere.
Igneous rock can form deep below the surface as intrusive igneous rock, or on or near the surface as extrusive igneous rock. X Answer is: Igneous
Roughly 70% of Earth's surface is covered by oceans, which means that 70% of the surface is below sea level.
Water molecules can evaporate from the surface of water, where they gain enough energy to overcome surface tension and escape into the air. Below the surface, water molecules can also evaporate through a process known as sublimation, where molecules transition directly from a solid to a gas, although this is less common.
Igneous rock that forms below the Earth's surface is intrusive.
the question is the anwser
Below the Surface was created in 1938.
Increasing the Surface Area increases the heat loss. You will find a nice example in the related question link below.
The duration of Below the Surface is 3300.0 seconds.
Granite forms below the surface, but it can be found at the surface where it has been exposed by erosion or uplift.
If you were 100 km below the surface you would be in the upper mantle / asthenosphere.
Igneous rock can form deep below the surface as intrusive igneous rock, or on or near the surface as extrusive igneous rock. X Answer is: Igneous
This is a very easy question to answer . Yes the air can be cooled or warmed by the surface below it because say if there was to be a earthquake right now in the ocean the heating of the surfaceunder the water would cause the water the make enormous wave and for te world to shake and depending on how hot the surface is heating.
3 miles below the surface
what is the surface area and volume of each solid below
below the earth's surface. Example: the ship can not go in subsurface.
I think the background information needed to answer this question is missing. Where was the sand surface that the water was below, and why is it important to know what happens to it? With those clues a answer would be possible.