An atom of 135I has a mass of 134.910023 amu. Calculate the binding energy in MeV per atom. Enter your answer with 4 significant figures and no units. Use the masses: mass of 1H atom = 1.007825 amu mass of a neutron = 1.008665 amu 1 amu = 931.5 Me. On this definition, the value of 1 atomic mass unit = (1/12) (12 gram)/ (value of Avogadro Number). Using known value of Avogadro Number the value of one amu can be determined in gram. It comes not to be 1 amu = 1.661 × 10^.
Why is the atomic mass unit (amu), rather than the gram, used to express atomic mass?
1 Answer
Because atoms are ridiculously small.
And the
1 amu = 1.660539040 (20)×10^−27 kilograms (Unified atomic mass unit - Wikipedia). There are 1000 grams in a kilogram. You can do the math. If not, check out the Khan Academy lesson on dimensional analysis here. 1.11% of the sample has a mass of 13.003355 amu (this isotope is 1.0836129 times as massive as 12 C) The average mass is simply a weighted average. Mass = 12.01 amu (Yes, the number 12.01 has the right number of significant figures, even though 1.11% only has 3 significant figures.).
which is immeasurably small. We don't care for masses that small because we physically can't see or measure it. Instead, we care for masses we can touch, like
And that involves:
You can clearly tell that this number of atoms is impossible to count. And so Avogadro's number,
And as you can see, these numbers look much nicer and more physically useful.
Value Of 1 Amu
Related questions