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M, M(n) & M(p) denotes the masses of a n...

`M, M_(n) & M_(p)` denotes the masses of a nucleous of `._(Z)X^(A)` a neutron, and a proton respectively. If the nucleus is separated in to its individual protons and neutrons then

A

`Mlt(A-Z)_(mn)+Z_(mp)`

B

`M=(A-Z)_(mn)+Z_(mp)`

C

`M=(A-Z)_(mp)+Z_(mn)`

D

`Mgt(A-Z)_(mn)+Z_(mp)`

Text Solution

Verified by Experts

The correct Answer is:
a
The mass of nucleus formed is always less than the sum of the masses, the constituent proton and neutrons
`i.e.," "mlt(A-Z)_(mm)+Z_(mp)`
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