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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.
How is energy generated in the core of a star?
Energy in the core of a star is generated through nuclear fusion, where hydrogen atoms combine to form helium, releasing a large amount of energy in the process. This energy production is sustained by the extreme pressure and temperature conditions found at the core of the star, which allow fusion reactions to occur.
What happens to a large star when it runs out of fuel?
When a large star runs out of fuel, it undergoes a supernova explosion, where the core collapses and releases a huge amount of energy. The outer layers are expelled into space, forming a nebula, while the core either forms a neutron star or a black hole, depending on its mass.
If a star has a large luminosity and also a low surface temperature then it must have?
If a star has a large luminosity and a low surface temperature, it must have a large surface area to compensate for the low temperature and still emit a high amount of energy. This would make the star a red supergiant, a type of star that is both luminous and cool at the same time.
What is a massive collection of gasses in space that emit large amounts of energy?
A star is a massive collection of gas in space, that emits large amounts of energy.
How does a star work to produce light and energy?
Stars produce light and energy through a process called nuclear fusion. In the core of a star, hydrogen atoms combine to form helium, releasing a large amount of energy in the form of light and heat. This energy is what makes stars shine brightly in the sky.
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 process enables the star to produce large amounts of energy?
Stars produce large amounts of energy through a process called nuclear fusion. In their cores, hydrogen nuclei combine under extreme pressure and temperature to form helium, releasing vast amounts of energy in the form of light and heat. This energy generation creates an outward pressure that balances the gravitational pull inward, allowing the star to maintain stability throughout its life cycle. As stars evolve, they can fuse heavier elements, continuing to produce energy until they exhaust their fuel.
Stars produce energy by fusing hydrogen into what?
Stars produce energy by fusing hydrogen into helium through a process called nuclear fusion. This fusion reaction releases a tremendous amount of energy in the form of light and heat, which powers the star and allows it to shine.
Is this microwave Energy Star compliant?
Energy Star compliant, certification is not applicble for microwaves as they do not produce heat by electricl resistance.
How is energy generated in the core of a star?
Energy in the core of a star is generated through nuclear fusion, where hydrogen atoms combine to form helium, releasing a large amount of energy in the process. This energy production is sustained by the extreme pressure and temperature conditions found at the core of the star, which allow fusion reactions to occur.
What produces its own light while a planet doen't?
A Star will produce its own light, through the nuclear fusion of hydrogen, which releases vast amounts of energy. Planets are not large enough for the required conditions to occur for this reaction, so they don't produce energy in this way.
The source of energy for a star?
by it self, they create & produce their own energy just like the sun
What is different about a star from a planet?
Stars are bigger than planets until they finally collapse into dwarf stars. Stars are large enough to produce nuclear energy in their core, so they produce high amounts of heat and light.
What will happen if antimatter falls into a star?
The antimatter will annihilate an equal mass of matter in the star and both masses will turn into energy, most likely in the form of gamma rays. Unless you used an enormous amount of antimatter there would be no noticeable change in the star. A large enough amount could blast away the star's outer layers.
What are the benefits of using Energy Star light bulbs in terms of energy efficiency and cost savings?
Energy Star light bulbs are more energy-efficient than traditional bulbs, which means they use less electricity to produce the same amount of light. This can result in lower energy bills and cost savings over time. Additionally, Energy Star bulbs have a longer lifespan, reducing the frequency of replacements and further saving money.
Which dehumidifiers use the least amount of energy?
the best one would be energy star
