Nuclear Binding Energy Part C Calculate the binding energy per nucleon of the bo

Question

Nuclear Binding Energy Part C Calculate the binding energy per nucleon of the boron nucleus B Nucleons The term nucleon refers to the particles found in the nucleus of an atom, namely protons and neutrons. one electron) has a mass of 1.007825 amu, A single neutron has a mass of 1.008665 amu. Note that amu stands for "atomic mass unit and is sometimes abbreviated with the symbol u. 1 u is equivalent to 1.665387 × 10-27kg Express your answer in millions of electron volts to four significant figures. A single hydrogen atom (one proton plus : 931.5 MeV/nucleon Submit Hints My Answers Give Up Review Part The total mass of the individual nucleons in an atom is always greater than the actual measured mass of the atom. The difference is called the mass defect. Incorrect; Try Again; 4 attempts remaining Binding Energy The mass defect of an atom corresponds to an amount of energy called the binding energy Binding energy can be calculated using Einstein's equation, E mc2, where E is energy in joules m is mass is kilograms, and c is the speed of light 2.998 x 108 m/s Part D Calculate the mass defect of the helium nucleus He. The mass of neutral 3He is given by Mye 3.016029amu Express your answer in atomic mass units to four significant figures. 0.029677 arnu Submit Hints My Answers Give Up Review Part Incorrect; Try Again; 5 attempts remaining

Explanation / Answer

c)= 934,2592MeV/nucleon

d)= 0,0073amu

e)=2802,7778MeV

f)=934,2592MeV/nucleon.

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