Nuclear Physics Concepts and Applications

Law of Conservation of Energy

Law of Thermodynamics

Law of Inertia

Law of Motion

It releases electrons

It turns into uranium-236 and undergoes fission

It becomes stable

It absorbs energy

To cool down the reactor

To heat up water and produce steam for electricity

To generate light

To create magnetic fields

Oxygen-16

Nitrogen-14

Hydrogen-1

Carbon-12

Energy absorbed by electrons

Energy required to split the nucleus

Energy holding the nucleus together

Energy released during chemical reactions

Calculating the mass change

Counting the number of neutrons

Measuring the temperature

Determining the speed of light

1.6605 x 10^-20 kg

1.6605 x 10^-30 kg

1.6605 x 10^-24 kg

1.6605 x 10^-27 kg

Because it is measured in joules

Because it involves only a few atoms

Because it is not visible

Because it is absorbed by the environment

It determines the direction of energy

It is a constant that relates mass and energy

It measures the speed of particles

It affects the temperature of reactions

Mass is absorbed by the nucleus

Mass is converted into energy

Mass is lost as heat

Mass remains constant