Understanding Mass Defect and Nuclear Binding Energy

The sum of the masses of protons and neutrons

The difference between the mass of the nucleus and the mass of its individual particles

The total mass of electrons in an atom

The mass of the nucleus alone

4

8

6

12

1.67493 x 10^-27 kg

9.11 x 10^-31 kg

1.66054 x 10^-27 kg

1.67262 x 10^-27 kg

It calculates the number of neutrons in an atom

It measures the stability of electrons

It explains the energy released when a nucleus is formed

It determines the atomic number of an element

Energy is stored

Energy is absorbed

Energy is released

No energy change occurs

A type of electron

A unit of energy

A particle in the nucleus, such as a proton or neutron

A type of isotope

By adding the mass of protons and neutrons

By dividing the total energy by the number of nucleons

By multiplying the mass defect by the speed of light squared

By dividing the total energy by the number of electrons

7

6

14

8

1.8655 x 10^-28 kilograms

1.679 x 10^-11 joules

3.16 x 10^26 mega electron volts

5.055 x 10^13 joules

It is used to calculate the mass of a single atom

It helps determine the number of particles in a mole

It measures the energy per nucleon

It is irrelevant to nuclear energy calculations