The heat of Formation of liquid Ethanol is -277 kJ/mol Source: http://en.wikipedia.org/wiki/Standard_enthalpy_change_of_formation_(data_table)
Well if you take into acount that metamorphic rock is formed by applying heat and pressure to sedimentary rock the answer becomes quite clear; the pressure is created by the tectonic plates colliding and the heat source is from the molten rock that is pushed close to the surface due to the collision. :)
Heat and pressure are responsible for the formation of metamorphic rock.
Yes. A rock is said to be metamorphosed when it undergoes a change due to heat and/or pressure.
To change the formation of the rock, you must change the crystal's structure, and to do that you need a lot of heat and pressure for a long period of time
what is a rock formation that is the source of soil
Sediments, Pressure, And Heat
The heat of Formation of liquid Ethanol is -277 kJ/mol Source: http://en.wikipedia.org/wiki/Standard_enthalpy_change_of_formation_(data_table)
The origin of the heat that creates metamorphic rock can be from friction caused by colliding plates, but by far the vast majority of the heat has originated in Earth's interior, caused by radioactive decay, remnant heat from Earth's formation, and pressure. And butt trolol
Well if you take into acount that metamorphic rock is formed by applying heat and pressure to sedimentary rock the answer becomes quite clear; the pressure is created by the tectonic plates colliding and the heat source is from the molten rock that is pushed close to the surface due to the collision. :)
Heat and pressure.
Heat and pressure are responsible for the formation of metamorphic rock.
Baishou rock is a metamorphic rock. This particular type of rock tends to transform when it is put under any source of heat or source of pressure.
Soil can be formed from the erosion and deposition of any kind of rock: igneous, sedimentary, or metamorphic.
Earths hot interior
This fits the description of a metamorphic rock.
Study Island Answer: gravitational energy left over from the formation of the Earth