Find the energy liberated in the reaction
``^223Ra rarr`^209(Pb)+`^14C`.
The atomic masses needed are as follows .
``^223Ra `^209(Pb) `^14C`
`223.18u 208.981u 14.003u`.

Find the energy liberated in the reaction Ra^223 rarr Pb^209 + C^14 The atomic masses needed are as follows . Ra^223 , Pb^209 , C^14 223.18u, 208.981u, 14.003u .

Find the kinetic energy of the alpha - particle emitted in the decay ^238 Pu rarr ^234 U + alpha . The atomic masses needed are as following: ^238 Pu 238.04955 u ^234 U 234.04095 u ^4 He 4.002603 u . Neglect any recoil of the residual nucleus.

Find the kinetic energy of the alpha - particle emitted in the decay ^238 Pu rarr ^234 U + alpha . The atomic masses needed are as following: ^238 Pu 238.04955 u ^234 U 234.04095 u ^4 He 4.002603 u . Neglect any recoil of the residual nucleus.

Find the kinetic energy of the alpha - particle emitted in the decay ^238 Pu rarr ^234 U + alpha . The atomic masses needed are as following: ^238 Pu 238.04955 u ^234 U 234.04095 u ^4 He 4.002603 u . Neglect any recoil of the residual nucleus.

Calculate the energy released in the following reactions, the masses given are:, "_ 88^223Ra rarr_82^209Pb+_6^14C

Calculate the energy realesed in the following reactions, given the masses to be _88^223 Ra : 223.0185u, "_82 ^209 Pb: 208.9811 , "_6 ^ 14 C: 14.00324 , "_92 ^236 U:236.0456 , "_56 ^140 Ba:139.9106 , "_36 ^94 Kr :93.9341, _6 ^ 11C:11.01143 , "_5 ^ 11 B:11.0093 . ignore neutrino energy. "_88 ^223 Ra rarr "_82 ^209 Pb + "_6 ^ 4 C

How much energy is released in the following reaction ? ""^(7)Li +p rarr alpha + alpha Atomic mass of ""^(7)Li = 7.0160 u and that of ""^(4)He = 4.0026 u .