logging in or signing up dressen-nuclear radiation darrend23 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 88 Category: Science & Tech.. License: All Rights Reserved Like it (0) Dislike it (0) Added: November 09, 2010 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Uses of Nuclear Radiation, Fission and Fusion : Uses of Nuclear Radiation, Fission and Fusion Figure 4.2: The penetrating power of radiation. : Figure 4.2: The penetrating power of radiation. © 2003 John Wiley and Sons Publishers Figure 4.4: The components of α rays, β rays, and γ rays. : Figure 4.4: The components of α rays, β rays, and γ rays. © 2003 John Wiley and Sons Publishers Origins of radiation exposure : Natural Background (cosmic rays, earth minerals) 81% Medicine and Diagnostics 15% Consumer Products (televisions sets, smoke detectors) 4% Origins of radiation exposure Human Exposure to Radiation : Human Exposure to Radiation Uses of Nuclear Radiation/Energy : Uses of Nuclear Radiation/Energy Radioactive Dating Medicine Chemotherapy Power pacemakers Diagnostic tracers Agriculture Irradiate food Pesticide Fertilizer evaluation Energy Fission Fusion Carbon-14 dating : 22,920 years ago Carbon-14 dating Slide 8: 17,190 years ago Slide 9: 11,460 years ago Slide 10: 5730 years ago Slide 11: Present Radioisotopes in Medicine : Radioisotopes in Medicine Radioisotopes like Tc-99 can be used to detect bone cancer. The Tc-99 accumulates in areas of abnormal bone metabolism and then detection of the nuclear radiation (gamma rays) show the location of the cancer. Radioisotopes in Agriculture : Radioisotopes in Agriculture -Radioactive tracers used to determine the effectiveness of fertilizers. Cobalt-60 produces gamma rays that are used to irradiate food. Fission : Fission Nuclear fission occurs when scientists bombard a large isotope with a neutron. This collision causes the larger isotope to break apart into two or more elements. These reactions release a lot of energy. You can calculate the amount of energy produced during a nuclear reaction using an equation developed by Einstein: E=mc2 Chain Reaction Figure : Chain Reaction Figure Nuclear Power Plants : Nuclear Power Plants If the neutrons can be controlled, then the energy can be released in a controlled way. Nuclear power plants produce heat through controlled nuclear fission chain reactions. The fissionable isotope is contained in fuel rods in the reactor core. All the fuel rods together comprise the critical mass. Control rods, commonly made of boron and cadmium, are in the core, and they act like neutron sponges to control the rate of radioactive decay. Nuclear Reactors : Nuclear Reactors The reaction is kept in check by the use of control rods. These block the paths of some neutrons, keeping the system from reaching a dangerous supercritical mass. Nuclear Power Plants (cont) : Nuclear Power Plants (cont) In the U.S., there are approximately 100 nuclear reactors, producing a little more than 20% of the country’s electricity. Advantages No fossil fuels are burned. No combustion products (CO2, SO2, etc) to pollute the air and water. Disadvantages Cost - expensive to build and operate. Limited supply of fissionable Uranium-235. Accidents (Three Mile Island & Chernobyl) Disposal of nuclear wastes Nuclear Reactors : Nuclear Reactors In nuclear reactors the heat generated by the reaction is used to produce steam that turns a turbine connected to a generator. What is Nuclear Fusion? : What is Nuclear Fusion? Nuclear Fusion is the energy-producing process taking place in the core of the Sun and stars The core temperature of the Sun is about 15 million °C. At these temperatures hydrogen nuclei fuse to give Helium and Energy. The energy sustains life on Earth via sunlight Slide 21: Energy from Fusion Nuclear Fusion : Nuclear Fusion Fusion would be a superior method of generating power. The good news is that the products of the reaction are not radioactive. The bad news is that in order to achieve fusion, the material must be in the plasma state at several million kelvins. Tokamak apparati like the one shown at the right show promise for carrying out these reactions. They use magnetic fields to heat the material. You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
dressen-nuclear radiation darrend23 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 88 Category: Science & Tech.. License: All Rights Reserved Like it (0) Dislike it (0) Added: November 09, 2010 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Uses of Nuclear Radiation, Fission and Fusion : Uses of Nuclear Radiation, Fission and Fusion Figure 4.2: The penetrating power of radiation. : Figure 4.2: The penetrating power of radiation. © 2003 John Wiley and Sons Publishers Figure 4.4: The components of α rays, β rays, and γ rays. : Figure 4.4: The components of α rays, β rays, and γ rays. © 2003 John Wiley and Sons Publishers Origins of radiation exposure : Natural Background (cosmic rays, earth minerals) 81% Medicine and Diagnostics 15% Consumer Products (televisions sets, smoke detectors) 4% Origins of radiation exposure Human Exposure to Radiation : Human Exposure to Radiation Uses of Nuclear Radiation/Energy : Uses of Nuclear Radiation/Energy Radioactive Dating Medicine Chemotherapy Power pacemakers Diagnostic tracers Agriculture Irradiate food Pesticide Fertilizer evaluation Energy Fission Fusion Carbon-14 dating : 22,920 years ago Carbon-14 dating Slide 8: 17,190 years ago Slide 9: 11,460 years ago Slide 10: 5730 years ago Slide 11: Present Radioisotopes in Medicine : Radioisotopes in Medicine Radioisotopes like Tc-99 can be used to detect bone cancer. The Tc-99 accumulates in areas of abnormal bone metabolism and then detection of the nuclear radiation (gamma rays) show the location of the cancer. Radioisotopes in Agriculture : Radioisotopes in Agriculture -Radioactive tracers used to determine the effectiveness of fertilizers. Cobalt-60 produces gamma rays that are used to irradiate food. Fission : Fission Nuclear fission occurs when scientists bombard a large isotope with a neutron. This collision causes the larger isotope to break apart into two or more elements. These reactions release a lot of energy. You can calculate the amount of energy produced during a nuclear reaction using an equation developed by Einstein: E=mc2 Chain Reaction Figure : Chain Reaction Figure Nuclear Power Plants : Nuclear Power Plants If the neutrons can be controlled, then the energy can be released in a controlled way. Nuclear power plants produce heat through controlled nuclear fission chain reactions. The fissionable isotope is contained in fuel rods in the reactor core. All the fuel rods together comprise the critical mass. Control rods, commonly made of boron and cadmium, are in the core, and they act like neutron sponges to control the rate of radioactive decay. Nuclear Reactors : Nuclear Reactors The reaction is kept in check by the use of control rods. These block the paths of some neutrons, keeping the system from reaching a dangerous supercritical mass. Nuclear Power Plants (cont) : Nuclear Power Plants (cont) In the U.S., there are approximately 100 nuclear reactors, producing a little more than 20% of the country’s electricity. Advantages No fossil fuels are burned. No combustion products (CO2, SO2, etc) to pollute the air and water. Disadvantages Cost - expensive to build and operate. Limited supply of fissionable Uranium-235. Accidents (Three Mile Island & Chernobyl) Disposal of nuclear wastes Nuclear Reactors : Nuclear Reactors In nuclear reactors the heat generated by the reaction is used to produce steam that turns a turbine connected to a generator. What is Nuclear Fusion? : What is Nuclear Fusion? Nuclear Fusion is the energy-producing process taking place in the core of the Sun and stars The core temperature of the Sun is about 15 million °C. At these temperatures hydrogen nuclei fuse to give Helium and Energy. The energy sustains life on Earth via sunlight Slide 21: Energy from Fusion Nuclear Fusion : Nuclear Fusion Fusion would be a superior method of generating power. The good news is that the products of the reaction are not radioactive. The bad news is that in order to achieve fusion, the material must be in the plasma state at several million kelvins. Tokamak apparati like the one shown at the right show promise for carrying out these reactions. They use magnetic fields to heat the material.