A star is formed when a massive amount of gas, mostly hydrogen, comes together due to the force of gravity. This gas cloud collapses under its own weight, and as it does so, it heats up and begins to spin. As the gas cloud spins, it flattens out into a disk, with most of the mass concentrated in the center. This central mass becomes so hot and dense that nuclear fusion is triggered, which releases a tremendous amount of energy in the form of light and heat.
So, to answer the question, what busted into flames and became a star? The answer is a gas cloud that collapsed under its own gravity and became hot and dense enough to trigger nuclear fusion, eventually becoming a star.
A: The statement refers to the process of stellar formation. Stars are formed from clouds of gas and dust called nebulae. These nebulae are often hundreds of light-years across and contain hydrogen gas, the primary fuel for stars. When the gas in the nebula becomes dense enough due to gravitational forces, it collapses under its own weight, heating up as it does so. Eventually, the temperature and pressure at the core of the collapsing gas cloud become so high that nuclear fusion reactions can occur, and a new star is born.
So, it can be said that the gas cloud which busted into flames due to gravitational forces and became hot and dense enough to ignite nuclear fusion became a star.
Answers & Comments
Answer:
A star is formed when a massive amount of gas, mostly hydrogen, comes together due to the force of gravity. This gas cloud collapses under its own weight, and as it does so, it heats up and begins to spin. As the gas cloud spins, it flattens out into a disk, with most of the mass concentrated in the center. This central mass becomes so hot and dense that nuclear fusion is triggered, which releases a tremendous amount of energy in the form of light and heat.
So, to answer the question, what busted into flames and became a star? The answer is a gas cloud that collapsed under its own gravity and became hot and dense enough to trigger nuclear fusion, eventually becoming a star.
A: The statement refers to the process of stellar formation. Stars are formed from clouds of gas and dust called nebulae. These nebulae are often hundreds of light-years across and contain hydrogen gas, the primary fuel for stars. When the gas in the nebula becomes dense enough due to gravitational forces, it collapses under its own weight, heating up as it does so. Eventually, the temperature and pressure at the core of the collapsing gas cloud become so high that nuclear fusion reactions can occur, and a new star is born.
So, it can be said that the gas cloud which busted into flames due to gravitational forces and became hot and dense enough to ignite nuclear fusion became a star.