Nuclear Fission is the process by how nuclear reactors and nuclear atomic bombs (basically an uncontrolled nuclear reactor that is left to explode) work.

Generally, at the quantum level, all atoms have both a strong nuclear force, pushing inward, and another force that pushes outward. The nuclear force is the force that pulls electrons towards the nucleus of an atom and allows them to continuously circle and orbit this same nucleus. This is why electrons (with a negative charge), and protons (with a positive charge), do not repel as we would imagine would normally occur with a positively and negatively charged magnet when held near eachother.

However, let's say we fire a neutron (with no electrical charge) towards the nucleus of an atom. Since the strong nuclear force only acts on, let's say, protons or electrons that are near the nucleus with electric charges, the neutron would reach the nucleus of the atom and thus be absorbed by it.

Uranium-235 is the material generally used in atomic bombs. This is because it is generally on the cusp between almost-equal strong nuclear and the force that pushes outwards. If a neutron was to be fired into the atom of enriched uranium-235, it would become a uranium-236 atom since the neutron is absorbed into the nucleus of the atom. When a critical mass of uranium-236 is present, the nucleus and atom becomes unstable, so the nucleus splits into two different nuclei of new different elements (i.e. Kr-92, and Ba-141). Fast-moving lighter elements (the fission products created), and these now released free neutrons are no longer being pushed by a strong nuclear force that is equal to the outward-pushing force, but instead the outward-pushing force is now stronger. Thus, all of this energy and these free-moving elements/neutrons burst outward in a tremendous amount of force, energy, and power: thus the atomic bomb. Because of the neutron hitting the nucleus, this also starts a chain reaction: three neutrons are relased from this reaction, which almost instantaneously transforms over to nine released neutrons, and then gradually going from nine to 27...81...243...n(3) and so on...each successive release of neutrons equal to three times the previous amount. This tremendous amount of energy release, as stated above, is what makes nuclear fission in its uncontroled state so powerful and destructive.

I'm not sure if I fully explained all of the fundamental information regarding nuclear fission, so if there any other questions regarding it, please ask.

 

 

 

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This reminds me, I a presentation on nuclear fission last year for science... i found it pretty interesting!

This image from Wikipedia really helps visualize the process

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Wow, that's a lot more than we learned in Physical Science this year. You forgot one things however, when the neutron hits the U-235, it starts a chain reaction which is what can make nuclear power so dangerous. 3 neutrons are released from the one reaction, and that turns into 9, then 27, then 81, then 243, 729, 2187, and so on and so forth, multiplying by 3 each time.

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Yes, I had forgotten to include that. Thank you.

Next up...Nuclear Fusion! Heh.

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Nuclear Fission is what that happened in Hiroshima and Nagasaki during the WWII. It caused a devastation that lasted for over 50 years. Still that region is affected. Lets think how the human knowledge destroys the Humans?

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Yes. That is true, to a degree. It can cause destruction, but this is only because of human greed and human nature. In actual fact, just like anything else, nuclear fission can either be a weapon or be used for good. Nuclear fission could create energy for the general populace, or of course if it is left going in an uncontrolled reaction, it will cause a destruction seen in Hiroshima.

Overall, technology is technology - even if we unlearn this technology, we will eventually invent something just as deadly.

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I'd most probably have the audacity to observe that, like all technologies, nuclear fission has both beneficial and harmful uses. Pretty much like how fire cooked or burnt the early human's food, this technology can either power one's TV or blast it up into pieces.

I am, however, convinced that nuclear fission is, at large, a harmful process. Here on earth, we must be earnest in sustaining a suitably controlled environment to contain the energy from the blast in order to harness its power. Thankfully, though, nuclear fission occurs less frequently in nature than the primitive human's fire.

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Yes but sometimes there is cases like chonubol something like that and still today there are poisonus gasses in the air!

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It's Chernobyl, dearie, but, like I said, while things like that do happen, those are less frequent than, let's say, forest fires.

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Another thing that is interesting about the whole thing is after the chain reaction you have fission chips... not exactly a meal I'd like to eat. I know, bad joke... I just had to get that one in there. Anyway, other fissionable materials include U233 and P239. It was once believed that plutonium did not occur in nature until it was actually found, though in very small quantities. Oh, and synthetic radioactive materials are found in your everyday common smoke detectors, though you cannot make your own warhead with it

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