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7.3 Nuclear Reactions

7.3 Nuclear Reactions. Text P. 312 Nuclear reactions differ from chemical reactions. Nuclear reactions can occur: 1.) Naturally Ex. -The alpha, beta, or gamma decay of isotopes.

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7.3 Nuclear Reactions

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  1. 7.3 Nuclear Reactions Text P. 312 Nuclear reactions differ from chemical reactions.

  2. Nuclear reactions can occur: 1.) Naturally Ex. -The alpha, beta, or gamma decay of isotopes. 2.) Man Made (forced or induced) Ex. – Bombarding a N-14 nucleus with and alpha particle to make the nucleus unstable.

  3. Subatomic Particle Symbols:

  4. Nuclear Reactions Two types: Fission = the splitting of nuclei Fusion = the joining of nuclei (they fuse together) Both reactions involve extremely large amounts of energy. Albert Einstein’s equation E = mc2 illustrates the energy found in even small amounts of matter

  5. 1. Nuclear Fission: Nuclear fissionis the splitting of one heavy nucleus into two or more smaller nuclei, as well as some sub-atomic particles and energy. A heavy nucleus is usually unstable, due to many positive protons pushing apart. When fission occurs: • Energy is produced. • More neutrons are given off.

  6. Induced Nuclear Fission Neutrons are used to make nuclei unstable It is much easier to crash a neutral neutron than a positive proton into a nucleus to release energy.

  7. Induced Nuclear Fission of Uranium-235 Is the origin of nuclear power and nuclear bombs. • A neutron, crashes into an atom of stable uranium-235 to create unstable uranium-236, which then decays. • After several steps, atoms of krypton and barium are formed, along with the release of 3 neutrons and huge quantities of energy.

  8. Chain Reactions: The neutrons released in the induced reaction can then trigger more reactions on other uranium-235 atoms…causing a CHAIN REACTION

  9. A chain reaction can quickly get out of control • materials that absorb some neutrons can help to control the chain reaction. Nuclear reactors have complex systems to ensure the chain reaction stays at safe levels. An uncontrolled chain reaction can result in the release of excess energy as harmful radiation • It is on this concept that nuclear bombs are created. • Nuclear “meltdown” occurs if the chain reactions cannot be controlled

  10. Nuclear energy used to produce power comes from fission Nuclear power plants can generate large amounts of electricity. • In Canada, Ontario, Quebec and New Brunswick currently use nuclear power. • Canadian-made nuclear reactors are called CANDU reactors. • CANDU reactors are considered safe and effective, and are sold throughout the world. The Bruce Nuclear Generating Station on the shores of Lake Huron, in Ontario

  11. CANDU Reactors CANDU reactors are found in various countries around the world. • Canada, South Korea, China, India, Argentina, Romania and Pakistan • The reactors are known to be • safe and easy to shut down in • an emergency. • Heat energy produced turns • electricity-generating turbines.

  12. Fukushima – Nuclear Power StationMarch 11, 2011 An earthquake hit Japan. The plant lost power. The first back-up emergency power turned ON. Then, a tsunami hit Japan. The emergency diesel generators became flooded and the plant lost power a second time. The second back-up, batteries turned ON, but only lasted 8 hrs. The plant lost its cooling capabilities. Pressure was too much. 2 reactors had explosions occur, badly damaging them.

  13. Hazardous Wastes Hazardous wastes produced by nuclear reactions are problematic. Some waste products, like fuel rods, can be re-used Some products are very radioactive, and must be stored away from living things. • Most of this waste is buried underground, or stored in concrete • It takes 20 half-lives (thousands of years) before the material is safe.

  14. 2. Nuclear Fusion The fusion of hydrogen nuclei Joining of two light nuclei into one heavier nucleus. In the core of the Sun, two hydrogen nuclei join under tremendous heat and pressure to form a helium nucleus. When the helium atom is formed, huge amounts of energy are released.

  15. Scientists cannot yet find a safe, and manageable method to harness the energy of nuclear fusion. “Cold fusion” would occur at temperatures and pressures that could be controlled (but we haven’t figured out how to get it to happen) Take the Section 7.3 Quiz

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