Yes, the higher the heat and pressure the heaver the elements that can be fused (until nickel & iron are the products, then no additional amount of heat and pressure can cause more fusion).
Nuclear fusion takes place in the core of the Sun, where the extreme pressure and temperature cause hydrogen atoms to fuse into helium. This process releases energy in the form of heat and light, powering the Sun and providing heat and light to our solar system.
The extreme pressure and temperature in a star's core cause hydrogen atoms to undergo nuclear fusion, combining to form helium. This fusion process releases a great amount of energy, helping to sustain the star's luminosity.
Gravity will cause a star to become smaller, because it pulls matter towards the star's core and causes it to contract. On the other hand, nuclear fusion will cause a star to become larger, because it produces an outward pressure, pushing the star's matter outwards and causing it to expand.
No, a nuclear chain reaction refers to a self-sustaining series of nuclear fissions where the neutrons released in one reaction cause further fissions. Fusion, on the other hand, is the process of combining two light atomic nuclei to form a heavier nucleus, releasing large amounts of energy in the process.
The difference between Fusion and Fission is that Fission is easier to do and produces more energy than fusion reactions. However fission can be dangerous and is used in Nuclear reactors. Fusion however is safer and produces less energy but safely. It is quite difficult to cause a Fusion reaction however.
Nuclear fusion, which is the mechanism by which stars operate, will cause lighter nuclei to "combine" (fuse) to create heavier ones. It will also cause a lot of energy to appear. This is because the fusion reactions are exothermic (at least through fusion that creates elements up through iron).
Yep, you got it.
Nuclear fusion takes place in the core of the Sun, where the extreme pressure and temperature cause hydrogen atoms to fuse into helium. This process releases energy in the form of heat and light, powering the Sun and providing heat and light to our solar system.
Nuclear Fusion
Nuclear Fusion
The extreme pressure and temperature in a star's core cause hydrogen atoms to undergo nuclear fusion, combining to form helium. This fusion process releases a great amount of energy, helping to sustain the star's luminosity.
Only in the very center of the sun can the nuclear fusion take place - that is the only part of the sun where heat and pressure are both high enough. As you move outward from the center, the pressures and temperatures both drop below the level necessary to cause fusion. Hence, the star has a state of equilibrium.
A star is a giant ball of hot gases that undergo nuclear fusion in its core. The intense pressure and temperature at the core of a star cause hydrogen atoms to fuse together to form helium, releasing a tremendous amount of energy in the process.
Nuclear fusion has not yet reached the point where it is practical for commercial use. However, it seems that it will cause much less polution than nuclear fission.
Nuclear fusion in the center of the Sun heats it up.Nuclear fusion in the center of the Sun heats it up.Nuclear fusion in the center of the Sun heats it up.Nuclear fusion in the center of the Sun heats it up.
Gravity will cause a star to become smaller, because it pulls matter towards the star's core and causes it to contract. On the other hand, nuclear fusion will cause a star to become larger, because it produces an outward pressure, pushing the star's matter outwards and causing it to expand.
No, a nuclear chain reaction refers to a self-sustaining series of nuclear fissions where the neutrons released in one reaction cause further fissions. Fusion, on the other hand, is the process of combining two light atomic nuclei to form a heavier nucleus, releasing large amounts of energy in the process.