Consider the nuclear reaction , ""1H^2...

Consider the nuclear reaction ,
`""_1H^2 + ""_1H^3 to ""_2He^4 + ""_0n^1`.
If the binding energies of `""_1H^1, ""_1H^3 " and " ""_2He^4` are a, b and c respectively (in MeV), then the energy released in this reaction is

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In the reaction ""_(1)^(2)H + ""_(1)^(3)H to ""_(2)^(4)He + ""_(0)^(1)n , if binding energies of ""_(1)^(2)H,""_(1)^(3)H, ""_(2)^(4)He are respectively a, b and c (in MeV), then the energy released in this reaction is :

In the reaction ._1^2 H + ._1^3 H rarr ._2^4 He + ._0^1 n , if the binding energies of ._1^2 H, ._1^3 H and ._2^4 He are respectively a,b and c (in MeV), then the energy (in MeV) released in this reaction is.

In the nuclear reaction , ""_(1) H^(2) + ""_(1) H^(3) = ""_(2) He^(4) + X ,, the emitted particle X is

Find the energy Q released in this reaction. 1H^2+1H^2 rarr Q+_2He^4

Consider the nuclear reaction , `""_1H^2 + ""_1H^3 to ""_2He^4 + ""_0n^1`. If the binding energies of `""_1H^1, ""_1H^3 " and " ""_2He^4` are a, b and c respectively (in MeV), then the energy released in this reaction is

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Consider the nuclear reaction ,
`""_1H^2 + ""_1H^3 to ""_2He^4 + ""_0n^1`.
If the binding energies of `""_1H^1, ""_1H^3 " and " ""_2He^4` are a, b and c respectively (in MeV), then the energy released in this reaction is