Obtain the binding energy of the nuclei `._(26)^(56)Fe` and `._(83)^(209)Bi`in units of MeV from the following data : `m (._(26)^(56)Fe)= 55.934939 u, m (._(83)^(209)Bi)=208.980388 u`

Obtain the binding energy of the nuclei `._(26)^(56)Fe` and `._(83)^(2

1.	Obtain the binding energy of the nuclei `._(26)^(56)Fe` and `._(83)^(209)Bi`in units of MeV from the following data : `m (._(26)^(56)Fe)= 55.934939 u, m (._(83)^(209)Bi)=208.980388 u`
Answer» (i) `._(26)F^(56)` nucleus contains 26 protons and (56 - 26) = 30 neutrons Mass of 26 proton `= 26xx1.007825` `= 26.26345 a.m.u` Mass of 30 neutrons `= 30xx1.008665` `= 30.25995 amu` Total mass of 56 nucleons `= 56.46340 a.m.u` Mass of `._(26)F^(56)` Nucleus `= 55.934939 a.m.u` Mass defect `Delta m = 56.46340-55.934939` `= 0.528461 a.m.u` Total binding energy `= 0.528461xx931.5 MeV` `= 492.26 MeV` Average B.E per nucleon `= (492.26)/(56)` `= 8.790 MeV`. (ii) `._(83)Bi^(209)` nucleus contains 83 protons and (209-83) = 126 neutrons Mass of 83 protons `= 83xx1.007825` `= 83.649475 a.m.u` Mass of 126 Neutrons `= 126xx1.008665` `= 127.09170 a.m.u` Total mass of nucleons `= 210.741260 a.m.u` Mass of `._(83)Bi^(209)` nucleus = 208.986388 a.m.u Mass defect `Delta m = 210.741260-208.980388` = 1.760872 Total B.E `= 1.760872xx931.5 MeV` = 1640.26 MeV Average B.E per nucleon `= (1640.26)/(209)` = 7.848 MeV Hence `._(26)Fe^(56)` has greater B.E per nucleon than `._(83)Bi^(209)`

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Obtain the binding energy of the nuclei `._(26)^(56)Fe` and `._(83)^(209)Bi`in units of MeV from the following data : `m (._(26)^(56)Fe)= 55.934939 u, m (._(83)^(209)Bi)=208.980388 u`

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