The isotope cobalt-60 has a nuclear mass of 59.933820 u. Calculate the mass defect of cobalt-60 using the following information: Mass of Proton: 1.007825 u Mass of Neutron: 1.008665 u 1 u = 931.5 MeV

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**Title: Understanding Mass Defect Calculation of Cobalt-60 Isotope** **Objective:** Calculate the mass defect of the isotope cobalt-60 using the given information. **Given Information:** - The nuclear mass of cobalt-60: 59.933820 u - Mass of proton: 1.007825 u - Mass of neutron: 1.008665 u - Conversion factor: 1 u = 931.5 MeV **Procedure:** 1. **Calculate the Theoretical Mass:** - Cobalt-60 contains 27 protons and 33 neutrons. - Calculate the total mass of the protons: \[ \text{Mass of protons} = 27 \times 1.007825 \text{ u} \] \[ \text{Mass of protons} = 27.210275 \text{ u} \] - Calculate the total mass of the neutrons: \[ \text{Mass of neutrons} = 33 \times 1.008665 \text{ u} \] \[ \text{Mass of neutrons} = 33.285945 \text{ u} \] - Sum the masses to get the total theoretical mass: \[ \text{Theoretical mass} = 27.210275 \text{ u} + 33.285945 \text{ u} \] \[ \text{Theoretical mass} = 60.496220 \text{ u} \] 2. **Calculate the Mass Defect:** - Subtract the given nuclear mass of cobalt-60 from the theoretical mass: \[ \text{Mass defect} = \text{Theoretical mass} - \text{Nuclear mass} \] \[ \text{Mass defect} = 60.496220 \text{ u} - 59.933820 \text{ u} \] \[ \text{Mass defect} = 0.562400 \text{ u} \] 3. **Convert Mass Defect to Energy (MeV):** - Use the conversion factor to convert mass defect to energy: \[ \text{Energy} = \text{Mass defect} \times 931.5 \text{