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ATOMIC ENERGY 4 Binding Energy 4 Fission and Fusion 4 Nuclear Reactors 4 Electrical Generation.

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Presentation on theme: "ATOMIC ENERGY 4 Binding Energy 4 Fission and Fusion 4 Nuclear Reactors 4 Electrical Generation."— Presentation transcript:

1 ATOMIC ENERGY 4 Binding Energy 4 Fission and Fusion 4 Nuclear Reactors 4 Electrical Generation

2 BINDING ENERGY The amount of energy required to remove a single proton or neutron from an atomic nucleus varies with the mass of the nucleus. The graph of this relationship is called the binding energy curve.

3 FISSION and FUSION

4  Nuclear energy can be released in two different ways: by fission (splitting) of a heavy nucleus, or by fusion (combining) of two light nuclei.  In both cases energy is released because the products have a higher binding energy than the reactants.  Fusion reactions are difficult to maintain because the nuclei repel each other, but unlike fission reactions, fusion does not create radioactive products.

5 CHAIN REACTION

6 NUCLEAR POWER PLANT The Palo Verde Nuclear Power Facility in Arizona, like other nuclear power plants, was built to harness nuclear energy for controlled use by humans. Nuclear power is a controversial energy source: it is inexpensive and creates no air pollution, but the radioactivity released during accidents at nuclear power plants has environmental damage.

7 NUCLEAR REACTOR

8 4 A nuclear reactor is a unit constructed to enclose all the equipment and material necessary to produce and control the process of nuclear fission. 4 Compounds of uranium are also used as fuel. 4 The second essential part of a nuclear reactor is the moderator material. It must be relatively light in mass and must not absorb neutrons. Fast neutrons, produced by fission, are slowed by a series of collisions with the nuclei of the moderator atoms. 4 One other essential part of the reactor is the coolant. The main coolant is a liquid or gas that is pumped or blown through the reactor core to remove heat given off mainly by the fuel.

9 FUSION REACTOR In 1993 scientists at the Tokamak Fusion Test Reactor, at Princeton University, produced a controlled fusion reaction, during which the temperature in the reactor surpassed three times that of the core of the sun. In a tokamak reactor, massive magnets confine hydrogen plasma under extremely high temperatures and pressures, forcing the hydrogen nuclei to fuse.

10 From Reactor to Electricity 4 A reactor produces heat. Once the heat is made, it makes little difference whether the heat comes coal, gas, oil, or wood. 4 The heat is used to produce steam which spins a turbine which drives a generator, making electricity.

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