The heat inside Earth primarily comes from two sources: residual heat from its formation, and the decay of radioactive elements in the mantle and core. This heat drives the movement of material in the Earth's interior, creating processes like mantle convection and the generation of Earth's magnetic field.
geothermal
The temperature at a depth of 1000 km inside the Earth can reach around 1000 to 2000 degrees Celsius. This heat is primarily generated by the radioactive decay of elements in the Earth's mantle and core.
geothermal
The heat from inside Earth gets dissipated into space on the surface, so you would expect the surface to be colder than the inside, which is farther from the surface.Also, there are differences in heat transport inside Earth, simply because different parts of the Earth are made up of different materials.
Metamophosis
The inside of the Earth is hot due to the heat generated from the decay of radioactive elements and the residual heat from the planet's formation billions of years ago.
The inside of the Earth is hot due to a combination of factors, including the heat left over from the planet's formation, radioactive decay of elements, and the Earth's core generating heat through the process of convection.
The Earth is hot inside because of the heat left over from its formation over 4.5 billion years ago, as well as heat produced by radioactive decay of elements in the Earth's core. This heat is trapped and unable to escape, leading to high temperatures deep within the Earth.
Source of heat in mantle come from radioactive decay of the radioactive elements inside the earth..
The high temperature inside the Earth is primarily caused by the heat generated from the decay of radioactive elements, as well as the residual heat from the planet's formation billions of years ago. This heat is trapped within the Earth's layers, leading to its high temperature.
The source of heat in the mantle primarily comes from the decay of radioactive elements like uranium, thorium, and potassium. This process releases energy in the form of heat which contributes to the high temperatures within the Earth's mantle.
Wind
The heat source that drives convection currents inside the Earth is primarily from the decay of radioactive elements within the Earth's core. This heat causes the material in the mantle to become less dense and rise, creating convection currents that drive the movement of tectonic plates.
The motion inside the Earth is primarily driven by the heat released from the decay of radioactive elements and leftover heat from its formation. This heat creates convection currents in the molten outer core, which generates a magnetic field and drives the movement of tectonic plates on the Earth's surface.
Heat that originates from inside the earth.
A toaster transfers heat through electrical coils or elements inside the toaster. When electrical current flows through the coils or elements, they heat up and transfer that heat to the bread placed inside, toasting it.
in the heat inside the earth