The star will continue to fuse hydrogen until it runs out of resources and dies out, after which it will collapse and die.
White dwarfs are too cool for nuclear fusion to take place.
Super cool lol
Red dwarf stars are massive enough to undergo nuclear fusion, so they would burn a long time before they run out of fuel. Brown dwarves are not massive enough for nuclear fusion, so almost all of its light come from the time when the brown dwarf was formed. Over a long period of time, a brown dwarf would cool down into a gas giant similar to Jupiter.
The binding energy (Strong Atomic Force) released is much greater when fusion occurs than when fission occurs. As an example, that is why fission bombs typically have yields around 100 to 500 kilotons of equivalent TNT, while fusion bombs typically have yields in the 25 to 50 megaton range. The problem is that fusion requires a lot of energy to initiate - in fact, most fusion bombs use a fission bomb to set them off.
Thermonuclear reactions only occur in the core of the star because that's where the heat and pressure is so great that it overcomes the forces between the atoms. The surface stars is relatively cool. The Sun is only around 10,000° F on its surface. well below the several million degrees required for fusion.
White dwarfs are too cool for nuclear fusion to take place.
Super cool lol
Nuclear fusion
Red dwarf stars are massive enough to undergo nuclear fusion, so they would burn a long time before they run out of fuel. Brown dwarves are not massive enough for nuclear fusion, so almost all of its light come from the time when the brown dwarf was formed. Over a long period of time, a brown dwarf would cool down into a gas giant similar to Jupiter.
The binding energy (Strong Atomic Force) released is much greater when fusion occurs than when fission occurs. As an example, that is why fission bombs typically have yields around 100 to 500 kilotons of equivalent TNT, while fusion bombs typically have yields in the 25 to 50 megaton range. The problem is that fusion requires a lot of energy to initiate - in fact, most fusion bombs use a fission bomb to set them off.
Thermonuclear reactions only occur in the core of the star because that's where the heat and pressure is so great that it overcomes the forces between the atoms. The surface stars is relatively cool. The Sun is only around 10,000° F on its surface. well below the several million degrees required for fusion.
Nuclear fission and nuclear fusion are the two processes that are used in the nuclear power plants. Nuclear fission refers to the process of splitting the atomic nuclei while nuclear fusion refers to the process of joining the atomic nuclei.
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.
cool
First of all it should be How is dust formed.=Well most dust is dead skin infact about 80 to 90% of dust is dead skin that has fallen off us. The other 20 to 10% is most dried up food and some of it is polution.=
it help us by giving electricity . and when earth quack occurs it does not discharge harmful radioactive materials outside. there fore it stops and cool the earth quack
Cool, in comparison with other stars.