Chapter 21 Section 3 Nuclear Radiation Nuclear Radiation.

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Presentation transcript:

Chapter 21 Section 3 Nuclear Radiation Nuclear Radiation

Chapter 21 Section 3 Nuclear Radiation Objectives Compare the penetrating ability and shielding requirements of alpha particles, beta particles, and gamma rays. Define the terms roentgen and rem, and distinguish between them. Describe three devices used in radiation detection. Discuss applications of radioactive nuclides.

Alpha, Beta, and Gamma Radiation Chapter 21 Section 3 Nuclear Radiation Alpha, Beta, and Gamma Radiation Click below to watch the Visual Concept. Visual Concept

Chapter 21 Radiation Exposure Section 3 Nuclear Radiation Radiation Exposure Nuclear radiation can transfer the energy from nuclear decay to the electrons of atoms or molecules and cause ionization. The roentgen (R) is a unit used to measure nuclear radiation exposure; it is equal to the amount of gamma and X ray radiation that produces 2  10 9 ion pairs when it passes through 1 cm3 of dry air. A rem is a unit used to measure the dose of any type of ionizing radiation that factors in the effect that the radiation has on human tissue.

Effect of Whole-Body Exposure to a Single Dose of Radiation Chapter 21 Section 3 Nuclear Radiation Effect of Whole-Body Exposure to a Single Dose of Radiation

Chapter 21 Radiation Detection Section 3 Nuclear Radiation Radiation Detection Film badges use exposure of film to measure the approximate radiation exposure of people working with radiation. Geiger-Müller counters are instruments that detect radiation by counting electric pulses carried by gas ionized by radiation. Scintillation counters are instruments that convert scintillating light to an electric signal for detecting radiation. Substances that scintillate absorb ionizing radiation and emit visible light.

Units Used in Measurements of Radioactivity Chapter 21 Section 3 Nuclear Radiation Units Used in Measurements of Radioactivity

Applications of Nuclear Radiation Chapter 21 Section 3 Nuclear Radiation Applications of Nuclear Radiation Radioactive Dating Radioactive dating is the process by which the approximate age of an object is determined based on the amount of certain radioactive nuclides present. Age is estimated by measuring either the accumulation of a daughter nuclide or the disappearance of the parent nuclide. Carbon-14 is used to estimate the age of organic material up to about 50 000 years old.

Chapter 21 Radiometric Dating Section 3 Nuclear Radiation Click below to watch the Visual Concept. Visual Concept

Applications of Nuclear Radiation, continued Chapter 21 Section 3 Nuclear Radiation Applications of Nuclear Radiation, continued Radioactive Nuclides in Medicine In medicine, radioactive nuclides are used to destroy certain types of cancer cells. cobalt-60 Radioactive tracers are radioactive atoms that are incorporated into substances so that movement of the substances can be followed by radiation detectors. Radioactive tracers can be used to diagnose diseases.

Chapter 21 Radioactive Tracer Section 3 Nuclear Radiation Click below to watch the Visual Concept. Visual Concept

Applications of Nuclear Radiation, continued Chapter 21 Section 3 Nuclear Radiation Applications of Nuclear Radiation, continued Radioactive Nuclides in Agriculture Radioactive tracers in fertilizers are used to determine the effectiveness of the fertilizer. Nuclear radiation is also used to prolong the shelf life of food.

Chapter 21 Nuclear Waste Nuclear Fission and Nuclear Fusion Section 3 Nuclear Radiation Nuclear Waste Nuclear Fission and Nuclear Fusion Fission is the primary process powering nuclear reactors. The products of the fission include the nuclei as well as the nucleons formed from the fragments’ radioactive decay. Both fission and fusion produce nuclear waste. Fission produces more waste than fusion.

Nuclear Waste, continued Chapter 21 Section 3 Nuclear Radiation Nuclear Waste, continued Containment of Nuclear Waste Nuclear waste needs to be contained so that living organisms can be shielded from radioactivity. There are two main types of containment: on-site storage and off-site disposal. Storage of Nuclear Waste The most common form of nuclear waste is spent fuel rods from nuclear power plants. Fuel rods can be contained temporarily above the ground in water pools or in dry casks.

Nuclear Waste, continued Chapter 21 Section 3 Nuclear Radiation Nuclear Waste, continued Disposal of Nuclear Waste Disposal of nuclear waste is done with the intention of never retrieving the materials. There are 77 disposal sites around the United States. A new site called Yucca Mountain is being developed for the permanent disposal of much of the nuclear waste.