When air high above the earth' surface is cooled below the dew point it is likely to form?
Clouds.
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.
Below the Earth's surface an Igneous rock is intrusive. Above the Earth's surface it is called extrusive.Hope this helps.
Water in a lake is usually cooled by the cold air above its surface rather than from the ground underneath it. As the top layer of water cools its density increases and so it sinks to the bottom, bringing other water up to the surface. This water is then cooled. This carries on until the temperature reaches 4 deg C when the density reaches a maximum. Further cooling lowers the temperature of the top layer but now its density is less than that of the water below so the top layer stays on top until it freezes (if it is cold enough). That is how you can get lakes with a frozen surface but liquid water below which can sustain aquatic life and also destroy human or other life forms that fall through the ice!
Reverse Fault
When air high above the earth' surface is cooled below the dew point it is likely to form?
Clouds.
Clouds.
Clouds.
When air high above the Earth's surface is cooled below the dew point, it is likely to form clouds. Clouds are visible mass of liquid droplets or frozen crystals made of water.
Clouds.
a
Clouds. If that were to happen at or near ground level, you'd have fog.
Clouds.
Sort of. An igneous rock is one that started as molten magma and then cooled and solidified either above, on, or below the surface.
Intrusive rock
Well lava is molten rock above the surface, and there are two types of igneous rocks: extrusive (cooling above the surface) or intrusive (cooling below the surface). So any extrusive igneous rock would answer your question so here is one: Andesite.