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The nuclear reactors we have now are fission reactors. This means that they obtain their energy from nuclear reactions that split large nuclei such as uranium into smaller ones such as rubidium and cesium. There is a binding energy that holds a nucleus together. If the binding energy of the original large nucleus is greater than the sum of the binding energies of the smaller pieces, you get the difference in energy as heat that can be used in a power station to generate electricity.
A fusion reaction works the other way. It takes small nuclei like deuterium (heavy hydrogen) and fuses them together to make larger ones such as helium. If the binding energy of the two deuterium nuclei is greater than that of the final larger helium nucleus, it can be used to generate electricity.
There are two main differences between fission and fusion. The first is that the materials required for fission are rarer and more expensive to produce than those for fusion. For example, uranium has to be mined in special areas and then purified by difficult processes. By contrast, even though deuterium makes up only 0.02 percent of naturally occurring hydrogen, we have a vast supply of hydrogen in the water making up the oceans. The second difference is that the products of fission are radioactive and so need to be treated carefully, as they are dangerous to health. The products of fusion are not radioactive (although a realistic reactor will likely have some relatively small amount of radioactive product).
The problem with building fusion reactors is that a steady, controlled fusion reaction is very hard to achieve. It is still a subject of intense research. The main problem is that to achieve fusion we need to keep the nuclei we wish to fuse at extremely high temperatures and close enough for them to have a chance of fusing with one other. It is extremely difficult to find a way of holding everything together, since the nuclei naturally repel each other and the temperatures involved are high enough to melt any solid substance known. As technology improves, holding everything together will become easier, but it seems that we are a long way off from having commercial fusion reactors.
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How would a fusion reactor differ from the nuclear reactor?
A fusion reactor is a type of nuclear reactor, one which fuses hydrogen atoms into helium atoms, as opposed to a fission reactor (by far the dominant source, and the only one used to commericaly generate power), which spilts uranium or plutonium atoms (mostly these two). Both use these reactions to generate heat, turning water to steam which then drives and turbine, which in turn drives a generator, creating electricity.
How do nuclear fusion differ fundamentally from nuclear fission?
Nuclear fusion doesn't produce energy.
How does artificial transmutation differ from artificial radioactivity?
"Artificial transmutation" is a nuclear reaction induced in laboratory, its man made. Artificial radioactivity is a radioactive disintegration phenomenon supported by artificial isotopes.
What are the differences between natural radioactivity nd artificial radioactivity?
Natural Radioactivity arises from radioactive components contained in nature. Artificial Radioactivity will come through element produced with in nuclear reactors as well as accelerators. Natural Radioactivity is a spontaneous process of disintegration. Artificial Radioactivity is carried in synthetically produced radioactive elements used in nuclear reactors.
How does membrane of the cell differ from the nuclear membrane?
They do not differ much. The proteins in each are slightly different.
What do both nuclear reactor and nuclear bombs have?
Both nuclear reactors and nuclear bombs utilize nuclear fission reactions, in which atomic nuclei are split, releasing a large amount of energy. However, the purpose and control of these reactions differ greatly: reactors are designed to produce electricity or heat through controlled fission, while bombs are intended to release explosive energy in an uncontrolled chain reaction.
How would a fusion reactor differ from the nuclear reactor?
A fusion reactor is a type of nuclear reactor, one which fuses hydrogen atoms into helium atoms, as opposed to a fission reactor (by far the dominant source, and the only one used to commericaly generate power), which spilts uranium or plutonium atoms (mostly these two). Both use these reactions to generate heat, turning water to steam which then drives and turbine, which in turn drives a generator, creating electricity.
Is nuclear power linked to the atomic bomb?
Only in that to make plutonium or tritium for nuclear bombs you need a reactor. While the reactors that make these materials can also be used to generate electricity, they usually don't. Also the types of reactors usually used to generate electricity are not usually designed to efficiently make these materials.
How does weapon-grade uranium differ from nuclear-reactor-grade uranium?
Weapons grade uranium contains a substantially larger fraction of the radioactive isotope 235U than does reactor grade uranium.
How do nuclear fusion differ fundamentally from nuclear fission?
Nuclear fusion doesn't produce energy.
How does artificial transmutation differ from artificial radioactivity?
"Artificial transmutation" is a nuclear reaction induced in laboratory, its man made. Artificial radioactivity is a radioactive disintegration phenomenon supported by artificial isotopes.
How does the membrane of the differ from the nuclear membrane?
They do not differ much. The proteins in each are slightly different.
How does the membrane of the cell differ from the nuclear?
They do not differ much. The proteins in each are slightly different.
What are the differences between natural radioactivity nd artificial radioactivity?
Natural Radioactivity arises from radioactive components contained in nature. Artificial Radioactivity will come through element produced with in nuclear reactors as well as accelerators. Natural Radioactivity is a spontaneous process of disintegration. Artificial Radioactivity is carried in synthetically produced radioactive elements used in nuclear reactors.
Can you explain the difference between nuclear fission and nuclear fusion and how they differ in terms of energy production?
Nuclear fission involves splitting atoms to release energy, while nuclear fusion involves combining atoms to release energy. In terms of energy production, nuclear fusion has the potential to produce more energy than fission, but it is currently more difficult to control and sustain.
How does the membrane of the cells differ from the nuclear membrane?
They do not differ much. The proteins in each are slightly different.
How does the membrane of cell differ from nuclear membrane?
They do not differ much. The proteins in each are slightly different.
