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Chapter 10: Nuclear Chemistry

Chapter 10: Nuclear Chemistry. Physical Science Coach Kelsoe Pages 290–318. Section 10–1: Radioactivity. Physical Science Coach Kelsoe Pages 292–297. Objectives. Describe the process of nuclear decay. Classify nuclear radiation as alpha particles, beta particles, or gamma rays.

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Chapter 10: Nuclear Chemistry

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  1. Chapter 10:Nuclear Chemistry Physical Science Coach Kelsoe Pages 290–318

  2. Section 10–1:Radioactivity Physical Science Coach Kelsoe Pages 292–297

  3. Objectives • Describe the process of nuclear decay. • Classify nuclear radiation as alpha particles, beta particles, or gamma rays. • Balance nuclear equations. • Identify sources of nuclear radiation, and describe how nuclear radiation affects matter. • Describe methods of detecting nuclear radiation.

  4. Nuclear Decay • Radioactivity is the process in which an unstable atomic nucleus emits charged particles and energy. • Any atom containing an unstable nucleus is called a radioactive isotope, or radioisotope for short. • Common radioisotopes include uranium-238 and carbon-14. • What is the process in which an unstable atomic nucleus emits charged particles or energy or both? A: radioactivity

  5. Nuclear Decay • Radioisotopes spontaneously change into other isotopes over time. When the composition of a radioisotope changes, the radioisotope is said to undergo nuclear decay. • During nuclear decay, atoms of one element can change into atoms of a different element altogether. Uranium-238 decays into thorium-234.

  6. Types of Nuclear Radiation • Scientists can detect a radioactive substance by measuring the nuclear radiation it gives off. • Nuclear radiation is charged particles and energy that are emitted from the nuclei of radioisotopes. • Common types of nuclear radiation include alpha particles, beta particles, and gamma rays.

  7. Alpha Decay • When uranium-238 decays, it emits alpha particles. An alpha particle is a positively charged particle made up of two protons and two neutrons – the same as a helium nucleus. • It has a 2+ charge and can be symbolized as either He or the Greek letter α (alpha). • Uranium-238 undergoes alpha decay. Therefore, uranium-238 will __. A: change into a different element altogether. 4 2

  8. Alpha Decay • Alpha decay, which refers to nuclear decay that releases alpha particles, is an example of a nuclear reaction. The following nuclear equation describes the alpha decay of uranium-238: U  Th + He • Alpha particles are the least penetrating type of nuclear radiation. Most particles can be stopped by a sheet of paper or clothing. 238 92 234 90 4 2

  9. Alpha Decay When radium-226 decays to form radon-222, the radium nucleus emits a(an) ____. A: alpha particle What type of radiation is emitted when polonium-212 forms lead-208? A: an alpha particle Alpha-emitting substances, such as radon gas, can be a serious health hazard only if _____. A: they are inhaled or eaten

  10. Beta Decay • When thorium-234 decays, it releases negatively charged radiation called beta particles. A beta particle is an electron emitted by an unstable nucleus. • A beta particle has a 1- charge (its mass number is 0 and its atomic number is -1) and is symbolized as e or the Greek letter β(beta). 0 -1

  11. Beta Decay • How can a nucleus emit a negative charge? During beta decay, a neutron decomposes into a proton and an electron. The proton stays trapped in the nucleus, while the electron is released. • The following equation describes the beta decay of thorium-234: Th  Pa + e 234 90 234 91 0 -1

  12. Beta Decay • In beta decay, the product isotope has one proton more and one neutron fewer than the reactant isotope. The mass numbers of the isotopes are equal because the emitted beta particle has virtually no mass. • Due to their smaller mass and faster speed, beta particles are more penetrating than alpha particles. They go through paper, but can be stopped by thin sheets of metal. • Carbon-14 forms nitrogen-14 by ___. A: beta decay

  13. Gamma Decay • Not all nuclear radiation consists of charged particles. • A gamma ray is a penetrating ray of energy emitted by an unstable nucleus. Gamma radiation has no mass and no charge. • Like x-rays and visible light, gamma rays are energy waves that travel through space at the speed of light. • What type of nuclear decay releases energy but not a particle? A: gamma decay

  14. Gamma Decay • During gamma decay, the atomic number and mass number of the atom remain the same, but the energy of the nucleus decreases. Gamma decay often accompanies alpha or beta decay. • For example, thorium-234 emits both beta particles and gamma rays (abbreviated as γ) as it decays: Th  Pa + e + γ • Gamma rays are much more penetrating than either alpha particles or beta particles. It can take several centimeters of lead or several meters of concrete to stop gamma radiation. 234 90 234 91 0 -1

  15. Effects of Nuclear Radiation • You are exposed to nuclear radiation daily. • Most of this is background radiation, or nuclear radiation that occurs naturally in the environment. Radioisotopes in air, water, rocks, plants, and animals contribute to background radiation.

  16. Effects of Nuclear Radiation • Cosmic rays are another source of background radiation. Cosmic rays are streams of charged particles (mainly protons and alpha particles) from outer space. • Collisions between cosmic rays and Earth’s atmosphere shower the surface below with nuclear radiation, but these levels are low enough to be safe.

  17. Effects of Nuclear Radiation • When nuclear radiation exceeds background levels, it can damage the cells and tissues of your body. • Nuclear radiation can ionize (charge) atoms. • When cells are exposed to nuclear radiation, the bonds holding together proteins and DNA molecules may break. As these molecules change, the cells may no longer function properly.

  18. Effects of Nuclear Radiation • Alpha particles, beta particles, and gamma rays are all forms of ionizing radiation. • Alpha particles can cause skin damage similar to a burn, but they are not a serious health hazard unless an alpha-emitting substance is inhaled or eaten. • Radon gas is a potentially dangerous natural source of alpha particles because it can be inhaled.

  19. January is Radon Awareness Month! • Radon-222 is formed through a series of nuclear decays that begins with uranium-238 in rocks deep underground. • As it is produced, it seeps upward toward the surface and sometimes collects in basements of buildings without proper ventilation. • Prolonged exposure to radon-222 can cause lung cancer.

  20. Effects of Nuclear Radiation • When exposure to nuclear radiation is external, the amount of damage depends on the penetrating power of the radiation. • Beta particles can damage tissues in the body more than alpha particles, but less than gamma rays. • Gamma rays can penetrate deeply into the body, possibly exposing organs to ionization damage.

  21. Detecting Nuclear Radiation • You can’t see, hear, or feel nuclear radiation, but scientific instruments can measure it. • Devices that are used to detect nuclear radiation include Geiger counters and film badges. • A Geiger counter uses a gas-filled tube to measure ionizing radiation. When nuclear radiation enters the tube, it ionizes the atoms and produces a measurable electric current. • Which of the following is NOT a step in the operation of a Geiger counter? A: magnets cause the ions to conduct electricity. • Many people work near a source of nuclear radiation. To detect the amount of exposure they have to radiation, they most likely will use a ____. A: film badge

  22. Vocabulary • Radioactivity • Radioisotope • Nuclear radiation • Alpha particle • Beta particle • Gamma ray • Background radiation

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