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Chapter 4: Nuclear Chemistry: The Heart of the Matter

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1 Chapter 4: Nuclear Chemistry: The Heart of the Matter
Chemistry for Changing Times, 11th edition John W. Hill and Doris K. Kolb Chapter 4: Nuclear Chemistry: The Heart of the Matter James A. Noblet California State University San Bernardino, CA  2007 Prentice Hall

2 Radium Uranium Radon Plutonium Carbon-14
Most of our exposure to ionizing radiation is from natural sources, the majority of which is due to this element: Radium Uranium Radon Plutonium Carbon-14

3 Radium Uranium Radon Plutonium Carbon-14
Most of our exposure to ionizing radiation is from natural sources, the majority of which is due to this element: Radium Uranium Radon Plutonium Carbon-14

4 When an electron is emitted during a radioactive decay process, it is referred to as:
Alpha decay Beta decay Gamma decay Delta decay Sigma decay

5 When an electron is emitted during a radioactive decay process, it is referred to as:
Alpha decay Beta decay Gamma decay Delta decay Sigma decay

6 Which of the following types of radiation has the greatest penetrating power?
Alpha Beta Ultraviolet X-ray Gamma

7 Which of the following types of radiation has the greatest penetrating power?
Alpha Beta Ultraviolet X-ray Gamma

8 If you have 16 g of a radioactive isotope, how much will be left after three half-lives?

9 If you have 16 g of a radioactive isotope, how much will be left after three half-lives?

10 The nuclear reaction transforming gold-179 into iridium-175 is an example of what type of decay?
Alpha Beta Gamma Positron Electron capture

11 The nuclear reaction transforming gold-179 into iridium-175 is an example of what type of decay?
Alpha Beta Gamma Positron Electron capture

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