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What is a massive ball of plasma that shines because of thermonuclear fusion in its core?
A massive ball of plasma that shines due to thermonuclear fusion in its core is called a star. In stars, hydrogen atoms fuse to form helium, releasing immense amounts of energy in the process, which produces light and heat. This fusion process occurs under extreme pressure and temperature conditions in the star's core. Our Sun is a prime example of such a star.
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Is the sun dry?
The sun is not dry, as it is a massive ball of hot plasma that emits energy through nuclear fusion.
Is the sun living?
No, the sun is not living. It is a massive ball of gas and plasma that undergoes nuclear fusion to produce energy and light.
Why sun is star?
The Sun is a star because it is a massive, luminous sphere of plasma that produces energy through nuclear fusion in its core, similar to other stars in the universe. Its brightness and heat are a result of this continuous fusion reaction and it plays a key role in providing light and heat to support life on Earth.
The difference between a planet and star?
A planet is any collection of rock or gas that has enough gravity to pull itself into a spherical shape. A star is hundreds or thousands of times more massive than any given planet, and is a ball of plasma with nuclear fusion occuring at the core
How is a star defined scientifically?
A star is a spheroidal plasma converting mass into energy by nuclear fusion.
What is the massive ball of plasma the shines because of thermonucleay fusion in its core?
The massive ball of plasma is called the Sun. It shines due to thermonuclear fusion reactions occurring in its core, where hydrogen nuclei combine to form helium, releasing massive amounts of energy in the process. This energy is emitted as light and heat, providing warmth and light to Earth.
What difference of a star and a planet?
A star is a luminous ball of plasma held together by its own gravity and produce energy through thermonuclear fusion. A planet is a body orbiting a star massive enough to be rounded by its own gravity but not massive enough to conduct fusion.
What is the massive ball of plasma that shines?
The Sun is a massive ball of plasma that shines due to nuclear fusion reactions occurring in its core, releasing energy in the form of light and heat.
What is massive body of plasma that shines due to energy released by nuclear fusion?
The sun and other stars.
Is the sun dry?
The sun is not dry, as it is a massive ball of hot plasma that emits energy through nuclear fusion.
What needs to occur for a star to be born?
A clump of matter must collapse under the attraction of its own gravity. The collapse must heat the matter up to form a plasma which undergoes thermonuclear fusion - of hydrogen into helium.
Is the sun living?
No, the sun is not living. It is a massive ball of gas and plasma that undergoes nuclear fusion to produce energy and light.
What is the significance of the heat of plasma in the study of nuclear fusion reactions?
The heat of plasma is important in nuclear fusion reactions because it helps to initiate and sustain the fusion process. Plasma, which is a superheated state of matter, is necessary for the atoms to collide with enough energy to overcome their natural repulsion and fuse together. The high temperatures of the plasma create the conditions needed for nuclear fusion to occur, releasing large amounts of energy in the process.
Why sun is star?
The Sun is a star because it is a massive, luminous sphere of plasma that produces energy through nuclear fusion in its core, similar to other stars in the universe. Its brightness and heat are a result of this continuous fusion reaction and it plays a key role in providing light and heat to support life on Earth.
What is the significance of the plasma current in the process of nuclear fusion?
The plasma current plays a crucial role in nuclear fusion by helping to confine and control the hot, charged particles in the plasma. This current generates a magnetic field that keeps the plasma stable and prevents it from touching the walls of the fusion reactor, allowing the fusion reactions to occur efficiently. In essence, the plasma current is essential for maintaining the conditions necessary for sustained nuclear fusion reactions.
What has the author Paul B Parks written?
Paul B. Parks has written: 'Model of an ablating solid hydrogen pellet in a plasma' -- subject(s): Ablation, Fusion reactors, Hydrogen, Isotopes, Refueling, Solid hydrogen, Thermonuclear fuels, Tokamaks
What happens in a fusion reactor if the plasma touched the sides of the container?
The energy used to allow nuclear fusion to happen would be transferred to the surroundings through the metal container because it is a conductor therefore the plasma would cool down and the reaction wouldn't be able to carry on.
