With nuclear fission, a large atomic nucleus (such as a uranium nucleus) breaks apart into smaller nuclei, and energy is released. With nuclear fusion, small atomic nuclei (such as hydrogen) join to become larger nuclei, and energy is released. Fusion of hydrogen releases much more energy than any other type of either fusion or fission. Note that the dividing line between heavy nuclei and light nuclei is the iron nucleus, which is at the perfect point of nuclear stability, so that neither fusion nor fission of iron nuclei would release any energy.
With nuclear fission, a large atomic nucleus (such as a uranium nucleus) breaks apart into smaller nuclei, and energy is released. With nuclear fusion, small atomic nuclei (such as hydrogen) join to become larger nuclei, and energy is released. Fusion of hydrogen releases much more energy than any other type of either fusion or fission. Note that the dividing line between heavy nuclei and light nuclei is the iron nucleus, which is at the perfect point of nuclear stability, so that neither fusion nor fission of iron nuclei would release any energy.
Fusion involves the fusing or combination of two nuclides to form one, whereas fission involves the fission or splitting of one nuclide into two. Both processes involve a loss of binding energy (Strong Atomic Force) which is manifest as heat and other forms of energy. It just so happens that the delta binding energy from fusion is hundreds or thousands of times more than that of fission, which is why Hydrogen (fusion) Bombs have so much more energy than Atomic (fission) Bombs.
Nuclear fission is what is used for nuclear power today, it is the splitting of a large atom's nucleus to form two smaller electrons by firing a beta radiation particle at it (an electron). Nuclear fusion is what happens in stars and the sun but is not yet possible to sustain for any period of time on Earth. It is the joining of the nuclei of two smaller atoms to from a larger atom, releasing a vast amount of energy but very high temperatures are required to give the nuclei the energy to move towards each other as they repel very strongly.
Nuclear Fusion- The combining of atomic nuclei. Nuclear Fission- The splittling of a nucleus into fragments.
In fusion, two components are joined into one. In fission, one component is split into two.
start by spelling fusion correctly. Fusion is the joining of two small nuclei Fission is the splitting of One large Nucleus
Fission
no. the sun uses fussion, not fission. fussion requires two hydrogens that "fuse" to make a helium, which gives off a lot more energy then fission. It does not require uranium.
A conventional explosion is detonated on contact or impact. The conventional explosion has a fission ignite. This means it explodes upon impact and needs a primary explosive to ignite.
Two types of asexual reproduction are Budding and Binary Fission. There are also other types of asexual reproduction such as Fragmentation, Sporulation, Regeneration, and Vegetative Propagation.
If you're referring to nuclear energy in power generating plants, it is nuclear fission. If you're referring to the nuclear energy in our Sun, it is nuclear fusion.
Fission and fussion manly occar in a star or a sun. The reason that a star or a sun is bright is because of the heat that is given off of from fission and fussion.
fusion
A nuerologist
fussion and fission
Fission
fission, fussion then pizza yum
no, but the products of fission are radioactive
no. the sun uses fussion, not fission. fussion requires two hydrogens that "fuse" to make a helium, which gives off a lot more energy then fission. It does not require uranium.
it is relatively large
Both release excess nuclear binding energy.
The basic particles that make up all nuclei, ie protons and neutrons
Both can be created on earth, and both have been. Fission has been used in atomic bombs, and fusion has been used in hydrogen bombs.