A deuterium reaction that occurs in an e...

A deuterium reaction that occurs in an experimental fusion reactor is in two stage:
(a) Two deuterium `(._1^2D)` nuclei fuse together to form a tritium nucleus, with a proton as a by product written as `D(D,p)T`.
(b) A tritium nucleus fuses with another deuterium nucleus to form a helium `._2^4He` nucleus with neutron as a by - product, written as T (D,n) `._2^4He`.
Compute (a) the energy released in each of the two stages, (b) the energy released in the combined reaction per deutrium. (c ) What percentage of the mass energy of the initial deuterium is released. Given,
`{:(._1^2D=2.014102 am u),(._1^3 T=3.016049), (._2^4 He =4.002603 am u),(._1^1 H =1.007825 am u),(._0^1 n =1.00665 am u):}`.

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In a fusion reactor, the reaction occurs in two stages. (i) Two deuterium (""_(1)^(2)D) nuclei fuse to form a tritium (""_(1)^(3)T) nucleus with a proton as product. (ii) A tritium nucleus fuses with another deuterium nucleus to form a helium (""_(2)^(4)He) nucleus with neutron as another product. Find (a) the energy released in each stage. (b) the energy released in the combined reaction per deuterium and (c) what percentage of the mass energy of the initial deuterium is released? Given : ""_(1)^(2)D=2.014102u,""_(1)^(3)T=3.016049u,""_(2)^(4)He=4.002603u,""_(1)^(1)H=1.007825u,""_(0)^(1)n=1.008665u Take 1u = 931 MeV

When two deuterium nuclei fuse together to form a tritium nuclei, we get a

Tritium nucleus contains

Deuterium nucleus consists of

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