Rocks inside earth are constantly melting and solidifying, when rocks are heated to high temperatures between (6250C and 1200OC),it melts into magma.
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Rocks inside earth are constantly melting and solidifying, when rocks are heated to high temperatures between (6250C and 1200OC),it melts into magma.
Igneous rocks such as Pumice, Obsidian, and Granite. And metamorphic rocks such as Gneiss.
No. Geothermal energy uses heat from inside the Earth, which is a combination of heat left over form Earth's formation and heat from the decay of radioactive isotopes within the Earth.
Short answer: Heat Geothermal energy is heat from within the earth.
Geothermal
Rocks inside earth are constantly melting and solidifying, when rocks are heated to high temperatures between (6250C and 1200OC),it melts into magma.
Igneous rocks such as Pumice, Obsidian, and Granite. And metamorphic rocks such as Gneiss.
No. Geothermal energy uses heat from inside the Earth, which is a combination of heat left over form Earth's formation and heat from the decay of radioactive isotopes within the Earth.
You have to have a source of geothermal energy within reach, which not many cities have.
my answer is the heat energy is magmaThe heat energy in earths crust is geothermal energy
Geothermal energy is from heated water within the earth's crust.
Short answer: Heat Geothermal energy is heat from within the earth.
Geothermal engineers work to transform thermal energy from within the earth into electrical energy. Currently there are about 130 of these geothermal projects in the United States.
Geothermal
No, thats chemical energy. Geothermal would be using heat that comes from within the earth itself.
Geothermal energy is the type of energy that comes from the heat that is within the earth. Chemical energy on the other hand refers to the potential energy of a chemical substance to undergo a chemical reaction.
Energy from the earth's heat is called geothermal.