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Nuclear fission is the process of splitting an atomic nucleus into two or more smaller nuclei. During this process, some mass is converted into energy according to Einstein's famous equation E=mc^2, where c is the speed of light. The mass defect is the difference in mass between the original nucleus and the smaller nuclei produced after fission, and this missing mass is converted into energy.
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Who calculated the energy released in nuclear fission?
Einstein's e=mc2 calculates the energy provided you have to mass defect (or the mass in which the product is subtracted from the reactants)
How is nuclear fission converted to electricity?
Nuclear fission is converted into electricity through the following: Nuclear fission; that is the splitting of heavy nuclei (as U-235) when bombarded by neutrons; results in loss of mass (or mass defect) that transforms into energy according to formula E = mc2 (c is light velocity). The resulting energy manifests itself as heat energy that produces steam. The steam spins the turbines that spins electric generators and hence producing electricity.
What are the products of nuclear fission and fusion?
The nuclear fission and/or fusion results in loss of mass (or mass defect) that transforms into energy according to formula E = mc2 (c is light velocity). The resulting energy manifests itself as heat energy that produces steam. The steam spins the turbines that spins electric generators and hence producing electricity.
The binding energy of an atomic nucleus is the energy equivalent to the atom's?
The binding energy of an atomic nucleus is the energy equivalent to the mass defect, which is the difference between the mass of the nucleus and the sum of the masses of its individual protons and neutrons. This energy is needed to hold the nucleus together and is released during nuclear reactions, such as fusion or fission.
How does the mass-energy equation relate to nuclear fission?
First, you ask your mom if she does not know ask your dad(if You are living with him) if he does not know as your gradparents then if they dont know Your WHOLE fanil is some DUMB Bi..ches
How does nuclear fission and nuclear fusion get power?
The mass defect due to fission or fusion converts to energy according to the equation: E = m c 2
How is fission used to calculate the energy required?
In nuclear fission, the energy released is calculated using the mass defect principle expressed by Einstein's equation E=mc^2, where E is energy, m is mass defect, and c is the speed of light. The mass defect is the difference in mass between the reactants and products of the fission reaction, and this mass defect is converted to energy according to Einstein's equation.
How is the mass defect used in fission power plants?
The mass defect in fission power plants is used to release energy by converting a small fraction of the mass of a heavy nucleus into energy during nuclear fission. This energy is then used to generate heat, which is converted into electricity through turbines and generators. The difference in mass before and after the fission reaction contributes to the energy released.
Who calculated the energy released in nuclear fission?
Einstein's e=mc2 calculates the energy provided you have to mass defect (or the mass in which the product is subtracted from the reactants)
During nuclear fission, mass is converted into what?
During nuclear fission, mass is converted into energy.
Different shapes of nuclear fission and fusion to nuclear energy?
Nuclear fission is the splitting of heavy nuclei (as U-235) when bombarded by neutrons. The nuclear fusion is the combination of two lighter nuclei into one nucleus. Both nuclear fission and nuclear fusion result in loss of mass (or mass defect) that transforms into energy according to formula E = mc2 (c is light velocity). The resulting energy manifests itself as heat energy/
How is a nuclear fission made?
Nuclear fission is the splitting of heavy nuclei (as U-235) when bombarded by neutrons. The nuclear fission results in loss of mass (or mass defect) that transforms into energy according to formula E = mc2 (c is light velocity). The resulting energy manifests itself as heat energy that produces steam. The steam spins the turbines that spins electric generators and hence producing electricity.
What is nuclear atomic fission?
Nuclear fission is the splitting of heavy nuclei (as U-235) when bombarded by neutrons. The nuclear fission results in loss of mass (or mass defect) that transforms into energy according to formula E = mc2 (c is light velocity). The resulting energy manifests itself as heat energy that produces steam. The steam spins the turbines that spins electric generators and hence producing electricity.
How is the enormous energy released in nuclear fission?
The nuclear fission results in loss of mass (or mass defect) that transforms into energy according to formula E = mc2 (c is light velocity). The resulting energy manifests itself as heat energy that produces steam. The steam spins the turbines that spins electric generators and hence producing electricity.
How the nuclear reactor can work?
The nuclear reactor is the device where it occurs a controlled nuclear fission chain reaction. The nuclear fission reaction results in loss of mass (or mass defect) that transforms into energy according to formula E = mc2 (c is light velocity). The resulting energy manifests itself as heat energy that produces steam. The steam spins the turbines that spins electric generators and hence producing electricity.
How is nuclear binding energy related to the mass defect?
Nuclear binding energy is the energy required to hold the nucleus together. The mass defect is the difference between the mass of a nucleus and the sum of the masses of its individual protons and neutrons. The mass defect is converted into nuclear binding energy according to Einstein's famous equation, E=mc^2, where E is the energy, m is the mass defect, and c is the speed of light.
How do you convert the mass?
Nuclear fission should do the trick.
