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calculate the binding energy per nucleon for 62ni , which has the highest value of any isotope. the atomic mass of 62ni is 61.92835 u .

User Janstol
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Answer:

The atomic mass of the isotope Ni ( 62 over 28 ) = 61.928345 amu.

Mass of the electrons: 28 · 5.4584 · 10^(-4 ) amu = 0.0152838 amu ( g/mol )

Mass of the nuclei:

61.928345 amu - 0.0152838 amu = 61.913062 amu (g/mol)

The mass difference between a nucleus and its constituent nucleons is called the mass defect.

For Ni ( 62 over 28 ): Mass of the protons: 28 · 1.00728 amu = 28.20384 amu

Mass of the neutrons: 34 · 1.00866 amu = 34.299444 amu

In total : 62.49828 amu

The mass defect = 62.49828 - 61.913062 = 0.585218 amu

Nucleus binding energy:

E = Δm · c² ( the Einstein relationship )

E = 0.585218 · ( 2.9979 · 10^8 m/s )² · 1 / (6.022 · 10^23) · 1 kg / 1000 g =

= 0.585218 · 8.9874044 · 10 ^16 : (6.022 · 10^23) · 0.001 =

= ( 5.2595908 : 6.022 ) · 0.001 · 10^(-7 ) =

= 0.0008733 · 10^(-7) J = 8.733 · 10^(-11) J

The nucleus binding energy per nucleon:

8.733 · 10^(-11) J : 62 = 0.14085 · 10 ^(-11) =

= 1.4085 · 10^(-12) J per nucleon.

User Amith Chinthaka
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