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Why are stars stable as young star?
They have enough energy produced to fuse four hydrogen atoms into a helium atom.
What is a star that has produce more energy than gravity can hold and explodes?
A star that has produced more energy than its own gravity can hold is known as a supernova. This explosive event releases a tremendous amount of energy and leads to the destruction of the star. Supernovae are among the most powerful and energetic events in the universe.
What is the source of pressure in the core of a red giant that resists the force of gravity?
The energy produced by the star, which manifests itself as heat.
Why is the corona cooler then the rest of the sun?
The heat energy is produced in the very centre of the sun/star so the corona is cooler because it is further away from the source of the energy.
What year was Star first produced in Nigeria?
What year was Star first produced in Nigeria?
What is example of nuclear energy?
Nuclear energy is produced through processes like nuclear fission, where atoms are split to release energy. A common example is nuclear power plants, where this energy is harnessed to generate electricity.
During photosynthesis what energy is produced by energy?
Chemical energy is produced. Light energy is used
What is a neutron stars' source of heat?
A neutron star no longer produces energy - it is a dead star. It will gradually get colder, until it stops emitting any significant amount of heat. Any heat the neutron star radiates is residual heat - heat that was produced earlier, either through fusion, or through the tremendous gravitational collaps that produced the neutron star.
What type of energy is a star?
A star primarily generates energy through nuclear fusion, a process in which hydrogen nuclei combine to form helium, releasing vast amounts of energy in the form of light and heat. This energy is produced in the star's core and radiates outward, providing the light and warmth that we observe from Earth. The balance between the gravitational forces pulling inward and the outward pressure from fusion reactions maintains the star's stability throughout its life cycle.
Does heat produced by nuclear fusion causes stars to glow?
Yes, the heat produced by nuclear fusion in the core of a star is what makes the star glow and emit light and heat. This fusion process converts hydrogen into helium and releases energy in the form of light and heat.
Which two energy sources can help a star maintain its internal thermal pressure?
Nuclear fusion and radiation pressure are the two energy sources that help a star maintain its internal thermal pressure. Nuclear fusion in the star's core generates heat and energy, while radiation pressure from the intense photons produced by fusion counteracts the gravitational forces trying to collapse the star.
How does an energy star microwave save energy?
There is no energy star label for microwaves.
