Obtain the binding energy (in MeV) of a nitrogen nucleus `(""_(7)^(14)N)` , given `m(""_(7)^(14)N)`
`=14.00307" "u`

Obtain the binding energy of a nitrogen nucleus from the following data: m_H=1.00783u ,m_N=1.00867u ,m( _7^14N)=14.00307u Give your answer in units of MeV. [Remember 1u=931.5MeV//c^2 ]

._(7)^(14)N and ._(6)^(14)C are isobars

What is the binding energy per nucleon of _(6)C^(12) nucleus? Given , mass of C^(12) (m_(c))_(m) = 12.000 u Mass of proton m_(p) = 1.0078 u Mass of neutron m_(n) = 1.0087 u and 1 amu = 931.4 MeV

The binding energies of the nuclei of ""_(2)^(4)He,""_(3)^(7)Li,""_(6)^(12)C & ""_(7)^(14)N are 28,50,89 98 MeV respectively. Which of these is most stable?

Using the following data .Mass hydrogen atom = 1.00783 u Mass of neutron = 1.00867 u Mass of nitrogen atom (._7N^(14)) 14.00307 u The calculated value of the binding energy of the nucleus of the nitrogen atom (._7 N^(14)) is close to

How many elementary particles are emitted when ""_6^(14) C transforms to ""_7^(14)N ?

The nuclei ._(6)C^(13) & ._(7)N^(14) can be described as

Find the Binding energy per neucleon for ""_(50)^(120)Sn Mass of proton m_(p)=1.00783U , mass of neutron m_(n)=1.00867U and mass of tin nucleus m_(Sn)=119.902199U . (take 1 U = 931 MEV)

Obtain the binding energy of the nuclei ._26Fe^(56) and ._83Bi^(209) in units of MeV from the following data: m(._26Fe^(56))=55.934939a.m.u. , m=(._83Bi^(209))=208.980388 a m u . Which nucleus has greater binding energy per nucleon? Take 1a.m.u =931.5MeV

In the reaction, identify X,""_(7)N^(14)+alphato""_(8)X^(17)+""_(1)P^(1)