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Presentation transcript:

Chapter 21 Preview Multiple Choice Short Answer Standardized Test Preparation Preview Multiple Choice Short Answer

Chapter 21 Multiple Choice 1. Complete the following nuclear equation: Standardized Test Preparation Multiple Choice 1. Complete the following nuclear equation: A. B. C. D.

Chapter 21 Multiple Choice 1. Complete the following nuclear equation: Standardized Test Preparation Multiple Choice 1. Complete the following nuclear equation: A. B. C. D.

Chapter 21 Multiple Choice 2. The mass of the nucleus is Standardized Test Preparation Multiple Choice 2. The mass of the nucleus is A. greater than the mass of the protons and neutrons that make up the nucleus. B. equal to the mass of the protons and neutrons that make up the nucleus. C. less than the mass of the protons and neutrons that make up the nucleus. D. converted to energy.

Chapter 21 Multiple Choice 2. The mass of the nucleus is Standardized Test Preparation Multiple Choice 2. The mass of the nucleus is A. greater than the mass of the protons and neutrons that make up the nucleus. B. equal to the mass of the protons and neutrons that make up the nucleus. C. less than the mass of the protons and neutrons that make up the nucleus. D. converted to energy.

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 3. Which type of radiation has the most penetrating ability? A. an alpha particle B. a beta particle C. a gamma ray D. a neutron

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 3. Which type of radiation has the most penetrating ability? A. an alpha particle B. a beta particle C. a gamma ray D. a neutron

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 4. Which two particles have the same mass but opposite charge? A. a beta particle and a positron B. a neutron and a proton C. a proton and an electron D. an alpha particle and a proton

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 4. Which two particles have the same mass but opposite charge? A. a beta particle and a positron B. a neutron and a proton C. a proton and an electron D. an alpha particle and a proton

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 5. Which of the following nuclear equations is correctly balanced? A. B. C. D.

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 5. Which of the following nuclear equations is correctly balanced? A. B. C. D.

Chapter 21 Multiple Choice 6. Gamma rays Standardized Test Preparation Multiple Choice 6. Gamma rays A. have the same energy as beta particles do. B. are visible light. C. have no charge and no mass. D. are not a form of electromagnetic radiation.

Chapter 21 Multiple Choice 6. Gamma rays Standardized Test Preparation Multiple Choice 6. Gamma rays A. have the same energy as beta particles do. B. are visible light. C. have no charge and no mass. D. are not a form of electromagnetic radiation.

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 7. Which of the following nuclides is radioactive? A. B. C. D.

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 7. Which of the following nuclides is radioactive? A. B. C. D.

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 8. The half-life of thorium-234 is 24 days. If you have a 42.0 g sample of thorium-24, how much will remain after 72 days? A. 42.0 g B. 21.0 g C. 10.5 g D. 5.25 g

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 8. The half-life of thorium-234 is 24 days. If you have a 42.0 g sample of thorium-24, how much will remain after 72 days? A. 42.0 g B. 21.0 g C. 10.5 g D. 5.25 g

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 9. It takes 5.2 min for a 4.0 g sample of francium-210 to decay until only 1.0 g is left. What is the half-life of francium-210? A. 1.3 min B. 2.6 min C. 5.2 min D. 7.8 min

Chapter 21 Multiple Choice Standardized Test Preparation Multiple Choice 9. It takes 5.2 min for a 4.0 g sample of francium-210 to decay until only 1.0 g is left. What is the half-life of francium-210? A. 1.3 min B. 2.6 min C. 5.2 min D. 7.8 min

Chapter 21 Standardized Test Preparation Short Answer 10. Write the nuclear equation that represents the process in which a neutron in the nucleus is changed to a proton with the emission of a beta particle.

Chapter 21 Standardized Test Preparation Short Answer 10. Write the nuclear equation that represents the process in which a neutron in the nucleus is changed to a proton with the emission of a beta particle. Answer:

Chapter 21 Standardized Test Preparation Short Answer 11. Describe a positron, and write its nuclear symbol.

Chapter 21 Standardized Test Preparation Short Answer 11. Describe a positron, and write its nuclear symbol. Answer: A positron is a positively charged particle with the same mass as a beta particle.

Chapter 21 Standardized Test Preparation Short Answer 12. Explain the difference between nuclear fission and nuclear fusion, and explain the energy changes that accompany each process.

Chapter 21 Standardized Test Preparation Short Answer 12. Explain the difference between nuclear fission and nuclear fusion, and explain the energy changes that accompany each process. Answer: Fission occurs when a heavy nuclide is bombarded with nucleons, such as neutrons and disintegrates into two smaller nuclides producing more neutrons and energy. Fusion occurs when two light nuclides combine to form a heavier nuclide and energy.

Chapter 21 Short Answer 13. What is meant by the term mass defect? Standardized Test Preparation Short Answer 13. What is meant by the term mass defect?

Chapter 21 Short Answer 13. What is meant by the term mass defect? Standardized Test Preparation Short Answer 13. What is meant by the term mass defect? Answer: A nuclide is made of a certain number of protons, neutrons, and electrons. The mass of a nuclide is less than the mass of the nuclide’s constituent protons, neutrons, and electrons. The difference in mass is the mass defect, and the difference in mass represents the binding energy of the nucleus.