Part A Calculate the mass defect of the nitrogen nucleus IN. The mass My of neutral 14N is equal to 14.003074 atomic mass units. Learning Goal: Express your answer in atomic mass units to four significant figures. Nuclear Physics - Binding Energy View Available Hint(5) work AEp Nuclear Binding Energy Submit Some atomic masses Particle Symbol Mass (u] Part B Electron e 0.00055 Proton P 1.00728 Neutron 1.00865 Calculate the binding energy E's of the nitrogen nucleus +N. Hydrogen H 1.00783 Express your answer in megaelectron volts to four significant figures. Helium He 4.00260 View Available Hint(s] IVO EB = Me V Submit Part C Calculate the binding energy per nucleon of the nitrogen nucleus 14N. Express your answer in megaelectron volts to three significant figures.IVO AEd HOE ? Learning Goal: MeVucleon Nuclear Physics - Binding Energy Submit Request Answer work Part D Calculate the mass defect of the helium nucleus ; He The mass of neutral ; He is given by Me = 4.002603 u. Nuclear Binding Energy Express your answer in atomic mass units to three significant figures. Some atomic masses View Available Hint[s) Particle Symbol Mass (u) Electron 0.00055 Proton P 1.00728 Neutron n 1.00868 Hydrogen H 1.00783 Helium 'He 4.00260 Submit Part E Calculate the binding energy E's of the helium nucleus ; He- Express your answer in megaelectron volts to three significant figures. View Available Hint[s) #OE ? EB = MeV