Calculate the Q - value of the reaction
`._(1)H^(2)+._(1)H^(2) rarr ._(1)H^(3)+._(1)H^(1)`
`m(._(1)H^(2))=2.014103 "amu" m(._(1)H^(3))=3.016049 "amu" m(._(1H^(1))=1.007825` amu

Find the Q - value for the nuclear reaction: ._(2)He^(4)+._(7)N^(14) rarr ._(8)O^(17)+._(1)H^(1) m(._(2)He^(4))=4.0039 "amu" m(._(7) N^(14))=14.0075 "amu" m(._(8)O^(17))=17.0045 amu m(._(1)H^(1))=1.0082 amu

Find the Q - value for the nuclear reaction: ._(2)He^(4)+._(7)N^(14) rarr ._(8)O^(17)+._(1)H^(1) m(._(2)He^(4))=4.0039 "amu" m(._(7) N^(14))=14.0075 "amu" m(._(8)O^(17))=17.0045 amu m(._(1)H^(1))=1.0082 amu

Find the Q - value for the nuclear reaction: ._(2)He^(4)+._(7)N^(14) rarr ._(8)O^(17)+._(1)H^(1) m(._(2)He^(4))=4.0039 "amu" m(._(7) N^(14))=14.0075 "amu" m(._(8)O^(17))=17.0045 amu m(._(1)H^(1))=1.0082 amu

Calculate the energy of the following nuclear reaction: ._(1)H^(2)+._(1)H^(3) to ._(2)He^(4) + ._(0)n^(1)+Q Given: m(._(1)H^(2))=2.014102u, m(._(1)H^(3))=3.016049u, m(._(2)He^(4))=4.002603u, m(._(0)n^(1))=1.008665u

Calculate the mass loss in the following: ._(1)^(2)H + ._(1)^(3)H to ._(2)^(4)He + ._(0)^(1)n given the masses: ._(1)^(2)H = 2.014 amu, ._(1)^(3)H = 3.016 amu: ._(2)^(4)He = 4.004 amu, ._(0)^(1)n = 008 amu

The Q value of a nuclear reaction A+b to C+d is defined by Q=[m_(A)+m_(b)-m_(C )-m_(d)]c^(2) where the masses refer to the respective nuclei. Determine from the given data the Q-value of the following reactions and state whether the reactions are exothermic or endothermic. ._(1)^(1)H+ ._(1)^(3)H to ._(1)^(2)H+._(1)^(2) Atomic masses are given to be m(._(1)^(2)H)=2.014102 u m(._(1)^(3)H)=3.016049 u m(._(6)^(12)C)=12.000000 u m(._(10)^(20)Ne)=19.992439 u