What is nuclear fission and how is usable energy produced from nuclear fission?

Answer 1

nuclear fission is the splitting of an unstable atomic nuclei into smaller more stable nuclei. There is a loss of mass that produces immense amounts of energy.

An atom splits into smaller atoms, which results in a loss of mass that generates energy and causes nuclear fission.

# E = mc^2# is the equation produced by Einstein's theory of relativity.
E = energy m = mass ( loss in the case of fission) #c^2# = the speed of light squared. (186,000 miles per second squared. or 34596000000 miles per second

The energy released by the loss of even a tiny quantity of mass is enormous. Consider the power of a small bullet fired from a high-powered weapon. The velocity of a high-powered weapon is multiple powers of ten less than the speed of light squared.

Consider the atomic bomb's power, which comes from nuclear fission.

An enormous quantity of energy is released when an atom splits, a process known as nuclear fission.

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Answer 2

Nuclear fission is a nuclear reaction in which the nucleus of an atom splits into two or more smaller nuclei, along with the release of a large amount of energy. This process can occur spontaneously or can be induced by bombarding the nucleus with neutrons. Usable energy is produced from nuclear fission through the conversion of mass into energy, as described by Einstein's famous equation, E=mc^2. When the nucleus splits, the total mass of the resulting nuclei is slightly less than the original mass of the parent nucleus. This "missing" mass is converted into energy according to the aforementioned equation. The energy released during nuclear fission is typically in the form of kinetic energy of the fission fragments and gamma radiation. This energy can be harnessed to generate electricity in nuclear power plants by heating water to produce steam, which then drives turbines connected to generators.

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Answer from HIX Tutor

When evaluating a one-sided limit, you need to be careful when a quantity is approaching zero since its sign is different depending on which way it is approaching zero from. Let us look at some examples.

When evaluating a one-sided limit, you need to be careful when a quantity is approaching zero since its sign is different depending on which way it is approaching zero from. Let us look at some examples.

When evaluating a one-sided limit, you need to be careful when a quantity is approaching zero since its sign is different depending on which way it is approaching zero from. Let us look at some examples.

When evaluating a one-sided limit, you need to be careful when a quantity is approaching zero since its sign is different depending on which way it is approaching zero from. Let us look at some examples.

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