1. Fission and Fusion Nuclear Fission
What happens in a nuclear chain reaction?
When the nuclei of certain isotopes are bombarded with neutrons, they undergo fission, the splitting of a nucleus into smaller fragments.
In a chain reaction, some of the neutrons produced react with other fissionable atoms, producing more neutrons which react with still more fissionable atoms.

2. Nuclear Fission Nuclear Fission
In nuclear fission, a uranium-235 nucleus breaks into two smaller nuclei and releases neutrons. Predicting What happens when the released neutrons strike other uranium-235 nuclei?

3. Nuclear fission can release enormous amounts of energy.
The fission of 1 kg of uranium-235 yields an amount of energy equal to that produced when 20,000 tons of dynamite explode.
Nuclear reactors used controlled fission to produce useful energy.
Reaction takes place within uranium-235 or plutonium-239 fuel rods.
Much of the energy produced is in the form of heat.
A fluid, usually liquid sodium or water, removes heat from the core (coolant).
The heated fluid is used to change water into steam, which drives a turbine that generates electricity.

4. Nuclear Reactors
The control of fission in a nuclear reactor involves two steps, neutron moderation and neutron absorption.
Neutron Moderation
Neutron moderation is a process that slows down neutrons so the reactor fuel (uranium-235 or plutonium-239) captures them to continue the chain reaction. (water or graphite serves as moderators)
Neutron Absorption
Neutron absorption is a process that decreases the number of slow-moving neutrons Control rods, made of a material such as cadmium, are used to absorb neutrons.

5. A Nuclear Power Plant
A nuclear reactor uses controlled fission to produce useful energy. The illustration shows the basic components of a nuclear reactor. Energy from the fission process heats the circulating coolant. The heated coolant is used to produce steam that turns a steam-driven turbine. The turbine drives a generator to produce electrical energy.

6. Nuclear Waste
Fuel rods from nuclear power plants are one major source of nuclear waste.
Why are spent fuel rods from a nuclear reaction stored in water?
Water cools the spent rods, and also acts as a radiation shield to reduce the radiation levels.

7. Nuclear Fusion How do fission reactions and fusion reactions differ?
Fusion occurs when nuclei combine to produce a nucleus of greater mass. In solar fusion, hydrogen nuclei (protons) fuse to make helium nuclei and two positrons.

8. Fusion reactions, in which small nuclei combine, release much more energy than fission reactions, in which large nuclei split.
The use of controlled fusion as an energy source on Earth is appealing.
The potential fuels are inexpensive and readily available.
Reaction of hydrogen-2 nucleus and hydrogen-3 combine to form a helium nucleus.
The problems with fusion lie in achieving the high temperatures necessary to start the reaction and in containing the reaction once it has started.

9. The Final Countdown
Individually reflect on the learnings they have had concerning the topic today.
Respond to the following…
What are the three most important things you learned today?
What are two questions you would still like answered?
What is the one way what you have learned connects with what you knew before?