Jupiter
Asteroid belts do not have a source of energy in the same way that planets or stars do. However, asteroids in the belt can gain energy from sunlight, which can cause them to rotate or move within the belt. Additionally, collisions between asteroids can also release energy.
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.
The Sun is the primary energy source, and it produces energy through the process of nuclear fusion within its core. The Sun is a huge ball of gas, mostly hydrogen, and at the high density of its core, atoms can fuse to make larger atoms, releasing energy.
The size of the planet along with the gravitational force within the planet.
Yes. There are energy sources within planets due to residual heat of formation and radioactive decay, but the sun is far, far and away the greatest energy source in this neck of the woods. Any and all other sources of energy are miniscule by comparison to the sun.
Yes, Saturn generates its own internal heat through a process known as radiogenic heating. This is the heat produced by the decay of radioactive isotopes within the planet's core. This internal heat can contribute to the planet's overall energy balance along with energy from the Sun.
The total internal energy contained in an object is referred to as its internal energy, which includes all forms of energy stored within the object such as kinetic, potential, and thermal energies.
The heat of the planet is used as a source of energy through geothermal power. This involves harnessing heat from deep within the Earth to generate electricity or provide heating for buildings. Geothermal energy is a renewable and sustainable source of power that can help reduce carbon emissions.
Geothermal energy is considered renewable because it is derived from the Earth's heat, which is continuously produced deep within the planet. The heat source is essentially limitless and is not depleted over human timescales, making geothermal energy a sustainable and environmentally friendly source of power.
Plants are the ultimate source of energy because they undergo photosynthesis, converting sunlight into chemical energy in the form of glucose. All organisms, directly or indirectly, rely on plants for energy through the food chain. Without plants, energy transfer within ecosystems would not be possible.
Geothermal energy is not derived directly or indirectly from solar energy. It comes from heat within the Earth's crust, generated by the decay of radioactive elements and residual heat from the planet's formation.
The two main sources of Earth's internal heat energy are residual heat from the planet's formation over 4.6 billion years ago and the decay of radioactive isotopes within the Earth's mantle. The heat generated by these processes contributes to the movement of tectonic plates and drives geological activity on the planet.
Internal thermal energy is the total kinetic energy of all the particles within a system. It includes the energy associated with the random motion and vibrations of the particles. In simpler terms, it represents the heat energy contained within an object.
Yes, the sun is a massive source of energy in the form of electromagnetic radiation. It generates this energy through nuclear fusion within its core, which produces light and heat that sustains life on Earth.
Earth's internal heat primarily comes from the radioactive decay of elements like uranium, thorium, and potassium within the planet's core. Some of Earth's internal heat is residual heat from the planet's formation billions of years ago. The Earth's internal heat also arises from the kinetic energy generated by the constant movement of molten rock in the mantle.
No, gravitational potential energy is not part of internal energy. Internal energy refers to the total kinetic and potential energy of the particles within a system, while gravitational potential energy arises from the position of an object in a gravitational field.
No, thermal energy refers to the total kinetic energy of particles in a substance, while internal energy includes both kinetic and potential energy of the particles within a system. Thermal energy is a component of internal energy, but internal energy also includes other forms of energy such as potential energy due to particle interactions.