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Science ~ chapter 12 energy and material resources

This chapter explores the fundamental components of atoms and their roles in nuclear energy. Students will learn about the parts of an atom, focusing on the nucleus and the nuclear reactions of fission and fusion. The section discusses how nuclear fission releases vast amounts of energy through chain reactions in a controlled environment, particularly in nuclear power plants. Additionally, it touches on the safety concerns, the challenges of nuclear waste disposal, and the potential for nuclear fusion as a future energy source, highlighting its immense energy yield and engineering challenges.

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Science ~ chapter 12 energy and material resources

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  1. Science ~ chapter 12energy and material resources Miss Nelson

  2. Section 3 Nuclear Energy

  3. Anticipatory set What does an atom look like? What are the parts of an atom?

  4. standards S 6.6.a- Students know the utility of energy sources is determined by factors that are involved in converting these sources to useful forms and the consequences of the conversion process S 6.6.b- Students know the different natural energy and material resources, including air, soil, rocks, minerals, petroleum, fresh water, wildlife, and forests; and know how to classify them as renewable or nonrenewable

  5. The big idea What happens during a nuclear fission reaction? How does a nuclear power plant produce electricity? How does a nuclear fusion reaction occur?

  6. Key terms • Nucleus – the central core of an atom that contains the protons and neutrons • Nuclear fission – the splitting of an atom’s nucleus into two smaller nuclei and neutrons • Reactor vessel – the part of a nuclear reactor where nuclear fission occurs

  7. Key terms • Fuel rod –a uranium rod that undergoes fission in a nuclear reactor • Meltdown – a dangerous condition in which fuel rods inside a nuclear reactor melt • Nuclear fusion – the combining of two nuclei to produce a single larger nucleus and much energy

  8. Nuclear energy • The center core of an atom that contains the protons and neutrons is called the nucleus • More than one nucleus = nuclei • Reactions that involve nuclei (called nuclear reactions) result in tremendous amounts of energy

  9. Nuclear energy There are two types of nuclear reactions: • Fission • Fusion

  10. Nuclear fission Nuclear reactions convert matter into energy

  11. Nuclear fission • What matter is changed into energy, and enormous amount of energy is released • Albert Einstein developed a formula that described the relationship between energy and matter • E = mc2 • E – energy • M – mass • C – speed of light

  12. Fission reactions Nuclear fission is the splitting of an atom’s nucleus into two smaller nuclei

  13. Fission reactions • The fuel for this reaction is a large atom that has an unstable nucleus • Such as Uranium-235 (U-235) • When the neutron hits the U-235 nucleus, the nucleus splits apart into two smaller nuclei and two or more neutrons • The total mass of all these particles is a bit less than the mass of the original nucleus • The small mass that makes up the difference has been converted into energy • A LOT of energy!

  14. Fission reactions While this was happening… • The reaction has produced more neutrons! • If any of these strike another nucleus, the fission reaction starts over again • More neutrons, and more energy are released… • If there are enough nuclei around, the process starts a chain reaction • The amount of energy released increases dramatically with each new reaction

  15. Energy from fission So what happens to all this energy? • If a nuclear chain reaction IS NOT controlled… • A HUGE EXPLOSION!! • Such as the explosion of an atomic bomb • If the chain reaction IS controlled… • The energy is released as heat, which can be used to generate electricity (nuclear power plant)

  16. Nuclear fission Read Nuclear Fission on pages 494-495 of your textbook

  17. Nuclear power plants • Controlled nuclear fission reactions take place inside nuclear power plants • Nuclear power plants generate as much of the world’s electricity • About 20 percent in the United States • About 70 percent in France

  18. Nuclear fuel • The uranium fuel for nuclear power plants is refined from uranium ores • Uranium ore is fairly abundant • Since new uranium ore is not being created, uranium is considered a nonrenewable resource

  19. Energy production In a nuclear power plant, the heat released from fission is used to change water into steam The steam then turns the blades of a turbine to generate electricity

  20. Energy production Read the specifics of Energy Production on pages 496 of your textbook

  21. Pros and cons • Accidents at nuclear power plants have led to safety concerns • If the fuel rods in a power plant cause too much heat they can cause a meltdown • Another problem with nuclear power is the disposal of highly radioactive wastes • Nuclear plants also emit lots of heat to the air and nearby bodies of water • However, they don’t emit carbon dioxide, so they might not contribute to global warming

  22. The quest to control fusion In nuclear fusion, two hydrogen nuclei combine to create a helium nucleus, which has slightly less mass than the two hydrogen nuclei. The lost mass is converted to large amounts of energy.

  23. To quest to control fusion • Nuclear fusion is the process by which the sun produces energy • On Earth, fusion is a promising future energy source • Fusion fuels are readily available • However, fusion can take place only at extremely high pressure s and temperatures • The construction of a practical fusion reactor is a major engineering challenge that may take many years to complete

  24. Check for understanding What is nuclear fission? Describe the steps that occur in a nuclear fission reaction?

  25. Check for understanding What is nuclear fission? Nuclear fission is the splitting of an atom’s nucleus into two smaller nuclei. Describe the steps that occur in a nuclear fission reaction? In a nuclear fission reaction, a neutron strikes a U-235 nucleus, which splits into two smaller nuclei and releases two or more neutrons and energy.

  26. Guided practice What type of nuclear reaction produces electricity in a nuclear power plant? What are the steps involved?

  27. Guided practice What type of nuclear reaction produces electricity in a nuclear power plant? The type of nuclear reaction that produces electricity in a nuclear power plant is a controlled nuclear fission chain reaction. What are the steps involved? The steps involved in a controlled nuclear fission chain reaction are thermal energy is released by fission reaction and used to boil water, which produces steam to turn the blades of a turbine which generate electricity.

  28. Independent practice Complete Energy 12-3 Independent Practice

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