Science ~ chapter 12 energy and material resources

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