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[" Two deuterons undergo nuclear fusion ...

[" Two deuterons undergo nuclear fusion to form a "],[" Helium nucleus.Energy released in this process "],[" is : (given binding energy per nucleon for "],[" deuteron "=1.1" MeV and for helium "=7.0" MeV) "],[[" (1) "32.4" MeV "," (2) "23.6" MeV "],[" (3) "25.8" MeV "," (4) "30.2MeV]]

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Two deuterons udnergo nuclear fusion to form a Helium nucleus. Energy released in this process is : (given binding energy per nucleon for deuteron = 1.1 MeV and for helium = 7.0 MeV)

Two deuterons udnergo nuclear fusion to form a Helium nucleus. Energy released in this process is : (given binding energy per nucleon for deuteron = 1.1 MeV and for helium = 7.0 MeV)

Nuclear energy is released in fusion reaction, since binding energy per nucleon is

Nuclear energy is released in fusion reaction, since binding energy per nucleon is

In fusion reaction ._(1)H^(2) + ._(1)H^(2) to ._(2)He^(4) + Q Find the energy released while binding energy per nucleon for deuterium is 1.12 MeV and for helium nucleus is 7.07 MeV

The binding energy per nucleon curve is sharp for helium. This shows that helium is

The binding energy per nucleon curve is sharp for helium . This shows that helium is

Assertion : Binding energy per nucleon is of the order of MeV. Reason: 1 MeV=1.6xx10^-13J .