Geothermal Energy ... in a usable form, water of hot springs.
It could also include lava from a volcano, etc.
earth's interior
The energy that warms Earth's surface primarily comes in the form of solar radiation from the Sun. This energy is absorbed by the Earth's surface and is then radiated back as heat. Some of this heat is trapped by greenhouse gases in the atmosphere, leading to the warming of the planet.
Rocks that form from the energy of the Earth's interior are primarily igneous rocks. These rocks form when magma or molten rock from the Earth's mantle rises to the surface and cools, resulting in solidification. Examples include basalt, which forms from rapid cooling of lava, and granite, which forms from the slow cooling of magma beneath the surface. The heat and pressure associated with the Earth's interior can also contribute to the formation of metamorphic rocks through the alteration of existing rocks.
Seismic energy is the energy released by the sudden movement of rocks in the Earth's crust, typically during an earthquake. This energy propagates in the form of seismic waves that can cause vibrations and shaking of the Earth's surface. Studying seismic energy allows scientists to understand the behavior of the Earth's interior and improve earthquake prediction and monitoring.
Mechanical energy in the form of E= mgh, water falling, goes in and electrical enegy comes out.
Geothermal energy comes from the earth's interior in the form of heat stored in rocks and fluids underground. This heat can be harnessed through geothermal power plants to generate electricity or used for direct heating applications.
earth's interior
Geothermal energy comes from the heat stored beneath the earth's surface in the form of hot water and steam. This heat is generated from the decay of radioactive materials in the Earth's core and from leftover heat from the Earth's formation.
The heat comes from Earth's interior, which is always hot.
Geothermal energy is the term used to describe energy that comes from inside the earth, usually in the form of heat stored in the Earth's crust.
Geothermal energy sources depend on primeval heat from the Earth's core.This is mainly derived from radioactive decay in the Earth's core, with a small contribution from gravity pressure.Similarly, Nuclear Reactors do not depend on the Sun for their energy.And one day we hope, the nuclear fusion problem will be cracked.And to a small extent, the electrical energy developed in a battery does not depend on the Sun, but most of the energy needed to make the battery would probably have come from a solar source.and the solar source is like solar pannels so if the solar energy depends on the sun geothermal energy does too.
Heat.
The energy in a compass is in the form of magnetic energy. The compass needle aligns with Earth's magnetic field, allowing it to point north. This magnetic energy comes from the interaction of charged particles in the Earth's core.
Electromagnetic radiation... i.e., light. Electromagnetic Waves A+
The energy that warms Earth's surface primarily comes in the form of solar radiation from the Sun. This energy is absorbed by the Earth's surface and is then radiated back as heat. Some of this heat is trapped by greenhouse gases in the atmosphere, leading to the warming of the planet.
The size of the sun determines its temperature and the amount of energy radiated. Electromagnetic energy from the sun comes to Earth in the form of radiation.
Rocks that form from the energy of the Earth's interior are primarily igneous rocks. These rocks form when magma or molten rock from the Earth's mantle rises to the surface and cools, resulting in solidification. Examples include basalt, which forms from rapid cooling of lava, and granite, which forms from the slow cooling of magma beneath the surface. The heat and pressure associated with the Earth's interior can also contribute to the formation of metamorphic rocks through the alteration of existing rocks.