the nuclear fusion reaction has not been made possible on earth yet, but the nuclear fusion reaction taking place inside the sun( i mean to say solar energy) can be made to work for the car, all you need to have is solar panel, which can be use to charge up the battery of the car.. or if you have a electric car.. you can run the car free of cost with the help of solar energy.
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.
Yes, nuclear fission is used in nuclear power plants to generate heat that is used to produce steam, which drives turbines to generate electricity. In nuclear fission, the nucleus of an atom is split into two or more smaller nuclei, releasing a large amount of energy.
The part of a power plant where fission takes place is called the nuclear reactor. This is where nuclear reactions, such as fission, occur to generate heat that is used to produce electricity. This heat is then used to heat water and produce steam that drives a turbine connected to a generator.
Uranium-235 is a heavy atom commonly used in nuclear fission reactions to produce thermal energy.
Yes, an atom bomb works by atomic fission, which involves splitting the nucleus of an atom, releasing an immense amount of energy. This process is used in both atomic bombs and nuclear reactors.
Fission.
The element first used for fission in an atomic bomb is uranium.
We can use plutonium in nuclear fission devices.
Nuclear fission has been used in nuclear bombs and is currently being used in every nuclear power plant on the earth.
Both are used.
The isotopes 233U, 235U, 239Pu, 241Pu for a fission with low energy neutrons.
Producing electricity
nuclear energy
nuclear energy
Uranium is used to make energy by fission
No, uranium is not the only element that can be used in nuclear fission. Other elements like plutonium and thorium can also undergo nuclear fission reactions. Uranium-235 is the most commonly used isotope, but plutonium-239 and thorium-232 can also sustain fission reactions in certain nuclear reactors.
The fuel most commonly used in fission reactions is uranium-235. This isotope undergoes nuclear fission when bombarded by neutrons, releasing energy in the process.