Question #94b00

1 Answer
Ernest Z.
May 1, 2017

The expected mass is 23.184 016 u.

Explanation:

A nucleus of ""_11^23"Na"2311Na contains 11 protons and 12 neutrons.

Its expected mass is the sum of the masses of its protons and neutrons.

Here's how to calculate the expected mass:

"Mass of protons":color(white)(mll) "11 × 1.007 276 u" = "11.080 036 u"Mass of protons:mll11 × 1.007 276 u=11.080 036 u
"Mass of neutrons": color(white)(m)"12 × 1.008 665 u" = "12.103 980 u"Mass of neutrons:m12 × 1.008 665 u=12.103 980 u
color(white)(mmmmmmmmmmmml)"Total mass/u":color(white)(l)stackrel(—————)("23.184 016 u")

∴ The expected mass is 23.184 016 u.

Note: This is different from the actual mass of a nucleus of ""_11^23"Na", which is 22.989 769 u.

The difference in mass is called the mass defect.

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