answersLogoWhite

0


Best Answer

That is because of the mass/energy equivalence. The energy that leaves the atoms after a nuclear reaction - initially as gamma rays - has a corresponding mass. If this energy later converts to another type of energy (such as heat), it will still have the corresponding energy. The conversion factor is, precisely, mc2 - that is, an energy of 9 x 1018 joules has a mass of 1 kg.

User Avatar

Wiki User

11y ago
This answer is:
User Avatar
More answers
User Avatar

AnswerBot

6mo ago

The equation E=mc^2 (energy equals mass times the speed of light squared) helps explain the large amount of energy released during nuclear fission reactions. In these reactions, a small amount of mass is converted directly into energy, following Einstein's formula. This is why the equation is often associated with nuclear fission and the immense energy it produces.

This answer is:
User Avatar

Add your answer:

Earn +20 pts
Q: Why mc2 is used as nuclear fission energy?
Write your answer...
Submit
Still have questions?
magnify glass
imp
Continue Learning about Physics

Production of this type of energy involves fission?

Nuclear energy is produced through nuclear fission reactions, which involve splitting the nucleus of an atom to release energy. This process generates heat, which is used to produce steam and drive turbines to generate electricity.


How heat is produced in nuclear reactor?

Heat is produced in a nuclear reactor through a process called nuclear fission. When a uranium atom is split, it releases energy in the form of heat. This heat is transferred to water, which is then used to produce steam to drive turbines and generate electricity.


Which kind of energy is described by the equation E mc2?

The equation E=mc^2 relates to the equivalence of mass and energy, showing that a small amount of mass can be converted into a large amount of energy. This is a key concept in understanding nuclear reactions and the energy release in processes such as nuclear fission and fusion.


Is nuclear an energy tranformation?

Yes, nuclear energy involves the transformation of atomic nuclei through processes like fission or fusion to produce heat, which is then converted into electricity. This transformation of atomic nuclei releases a significant amount of energy compared to other energy sources like fossil fuels.


Where is nuclear energy formed?

Nuclear energy is generated in the core of nuclear power plants, where uranium or plutonium atoms undergo a process called nuclear fission, releasing a large amount of heat energy. This heat energy is then used to produce steam, which drives turbines to generate electricity.

Related questions

Production of this type of energy involves fission?

Nuclear energy is produced through nuclear fission reactions, which involve splitting the nucleus of an atom to release energy. This process generates heat, which is used to produce steam and drive turbines to generate electricity.


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)


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/


Can nuclear fission be used to generate electricity?

Yes, 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.


In nuclear fission how does the loss in mass affect the amount of energy given off?

They are directly related through equation E = mc2. In each fission the nucleus loses a little mass and releases an equivalent amount of energy.


Nuclear fission to generate eletricity?

Nuclear fission is used to generate 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.


Do you use nuclear fission to activate the atomic bomb?

Yes, nuclear fission is used to initiate the atomic bomb explosion. The process involves splitting the nuclei of heavy elements like uranium or plutonium, releasing a huge amount of energy in the form of both heat and radiation which causes the bomb to detonate.


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.


Why are fission and fusion called nuclear energy?

Nuclear energy is the source of the energy produced by both fission and fusion. Per Einstein's equation E = mc2 matter may be converted into energy. In fission, the nuclei of heavy atoms like Uranium or Plutonium are split into less heavy elements. Byproducts of fission are nuclear energy and neutrons that may be used to sustain the nuclear fission process as in a reactor or a bomb. In fusion, two nuclei are merged (or fused) to form a heavier element. Often two Hydrogen atoms are fused to form a Helium atom. Fusion is the process that occurs in our sun. Both fission and fusion result in the conversion of a small amount of the matter in the nuclei of the source atom(s) into energy. Therefore, both may be considered nuclear energy.


How heat is produced in nuclear reactor?

Heat is produced in a nuclear reactor through a process called nuclear fission. When a uranium atom is split, it releases energy in the form of heat. This heat is transferred to water, which is then used to produce steam to drive turbines and generate 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.