Chapter 21 Nuclear Chemistry
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1 Chapter 21 Nuclear Chemistry
2 The Nucleus Remember that the nucleus is comprised of the two nucleons, protons and neutrons. The number of protons is the atomic number. The number of protons and neutrons together is effectively the mass of the atom.
3 Isotopes Not all atoms of the same element have the same mass due to different numbers of neutrons in those atoms. There are three naturally occurring isotopes of uranium: Uranium-234 Uranium-235 Uranium-238
4 Radioactivity It is not uncommon for some nuclides of an element to be unstable, or radioactive. We refer to these as radionuclides. There are several ways radionuclides can decay into a different nuclide.
5 Types of Radioactive Decay Alpha Decay Loss of an -particle (a helium nucleus) 4 He U Th He
6 Types of Radioactive Decay Beta Decay Loss of a -particle (a high energy electron) 0 1 or 0 e I Xe e
7 Types of Radioactive Decay Gamma Emission Loss of a -ray (high-energy radiation that almost always accompanies the loss of a nuclear particle) 0 0
8
9 Types of Radioactive Decay Electron Capture (K-Capture) Addition of an electron to a proton in the nucleus As a result, a proton is transformed into a neutron. 1 p e 1 1 n 0
10 Neutron-Proton Ratios Any element with more than one proton (i.e., anything but hydrogen) will have repulsions between the protons in the nucleus. A strong nuclear force helps keep the nucleus from flying apart. Neutrons play a key role stabilizing the nucleus. Therefore, the ratio of neutrons to protons is an important factor.
11 Neutron-Proton Ratios For smaller nuclei (Z 20) stable nuclei have a neutron-to-proton ratio close to 1:1.
12 Neutron-Proton Ratios As nuclei get larger, it takes a greater number of neutrons to stabilize the nucleus.
13 The shaded region in the figure shows what nuclides would be stable, the socalled belt of stability. Stable Nuclei
14 Stable Nuclei Nuclei above this belt have too many neutrons. They tend to decay by emitting beta particles.
15 Stable Nuclei Nuclei below the belt have too many protons. They tend to become more stable by positron emission or electron capture.
16 Stable Nuclei There are no stable nuclei with an atomic number greater than 83. These nuclei tend to decay by alpha emission.
17 Radioactive Series Large radioactive nuclei cannot stabilize by undergoing only one nuclear transformation. They undergo a series of decays until they form a stable nuclide (often a nuclide of lead).
18 Nuclear Transformations Nuclear transformations can be induced by accelerating a particle and colliding it with the nuclide. These particle accelerators are enormous, having circular tracks with radii that are miles long.
19 Measuring Radioactivity One can use a device like this Geiger counter to measure the amount of activity present in a radioactive sample. The ionizing radiation creates ions, which conduct a current that is detected by the instrument.
20 Energy in Nuclear Reactions There is a tremendous amount of energy stored in nuclei. Einstein s famous equation, E = mc 2, relates directly to the calculation of this energy. In chemical reactions the amount of mass converted to energy is minimal. However, these energies are many thousands of times greater in nuclear reactions.
21 Energy in Nuclear Reactions For example, the mass change for the decay of 1 mol of uranium-238 is g. The change in energy, E, is then E = ( m) c 2 E = ( kg)( m/s) 2 E = J
22 Nuclear Fission How does one tap all that energy? Nuclear fission is the type of reaction carried out in nuclear reactors.
23 Nuclear Fission Bombardment of the radioactive nuclide with a neutron starts the process. Neutrons released in the transmutation strike other nuclei, causing their decay and the production of more neutrons. This process continues in what we call a nuclear chain reaction.
24 Nuclear Fission If there are not enough radioactive nuclides in the path of the ejected neutrons, the chain reaction will die out. Therefore, there must be a certain minimum amount of fissionable material present for the chain reaction to be sustained: Critical Mass.
25 Nuclear Reactors In nuclear reactors the heat generated by the reaction is used to produce steam that turns a turbine connected to a generator.
26 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.
27 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.
28 Half-Life Amount of time it takes for one half of a sample of radioactive atoms to decay 28
29 Summary of Radioactive Isotopes
30 Radioactive by-products of Uranium
31 Medical Applications of Half- Life Nuclide Half-Life Area of Body I days Thyroid Fe days Red Blood Cells Sr hours Bones Tc hours Heart Na hours Circulatory System 31
32 Half-Life Calculation #1 You have 400 mg of a radioisotope with a half-life of 5 minutes. How much will be left after 30 minutes? 32
33 Half-Life Calculation #2 Suppose you have a 800 mg sample of U-238, which has a half-life of 4.5 billion years. How long will it take to have 100mg left? 33
34 Half-Life Calculation # 3 Cobalt-60 is a radioactive isotope used in cancer treatment. Co-60 has a half-life of 5 years. If a hospital starts with a 1000 mg supply, how many mg will need to be purchased after 10 years to replenish the original supply? 34
35 Half-Life Calculation # 4 A radioisotope has a half-life of 1 hour. If you began with a 100 g sample of the element at noon, how much remains at 3 PM? At 6 PM? At 10 PM? 35
36 Half-Life Calculation # 5 How many half-lives have passed if 255 g of Co-60 remain from a sample of 8160 g? 36
37 Half-Life Calculation # 6 Suppose you have a sample containing 400 nuclei of a radioisotope. If only 25 nuclei remain after one hour, what is the half-life of the isotope? 37
38 Half-Life Calculation # 7 If a radioactive element has diminished by 7/8 of its original amount in 30 seconds, what is its half-life? 38
39 Answers to Half-Life Calculations Half-Life Calculation # mg Half-Life Calculation # mg Half-Life Calculation #3 750 mg 39
40 Answers to Half-Life Calculations Half-Life Calculation # g, g, g Half-Life Calculation #5 5 half-lives 40
41 Answers to Half-Life Calculations Half-Life Calculation #6 15 minutes Half-Life Calculation #7 10 seconds 41
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