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प्रश्न
Write nuclear reaction of nuclear fusion.
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उत्तर
\[\ce{\underset{(Deuterium)}{^2_1H}+ \underset{(Deuterium)}{^2_1H}-> \underset{(Helium isotope)}{^3_2He}+ \underset{(Neutron)}{^0_1n}+ 3.3 MeV}\]
\[\ce{\underset{(Helium isotope)}{^3_2He}+ \underset{(Deuterium)}{^2_1H} -> \underset{(Helium)}{^4_2He}+ \underset{(Proton)}{^1_1H} + 18.3 MeV}\]
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संबंधित प्रश्न
Why is a very high temperature required for the process of nuclear fusion? State the approximate temperature required.
Complete the following fusion reaction:
\[\ce {^3_2He + ^2_1H -> ^\underline{}_2He + ^\underline{}_1H + energy}\]
Name the process, nuclear fission or nuclear fusion, in which the energy released per unit mass is more?
Nuclear fusion is possible only at an extremely high temperature of the order of ____ K.
Match: IV
| a. | Uncontrolled fission reaction | Hydrogen Bomb |
| b. | Fertile material | Nuclear Reactor |
| c. | Controlled fission reaction | Breeder reactor |
| d. | Fusion reaction | Atom bomb |
Which of the following are suitable for the fusion process?
Use the analogy to fill in the blank.
Nuclear Fusion: Extreme temperature, Nuclear Fission: ______.
Use the analogy to fill in the blank.
Nuclear Fusion: Extreme temperature, Nuclear Fission: ______.
What is nuclear fusion?
Give one example of nuclear fusion.
