Tuesday, January 29, 2019
Chemistry open book paper Essay
During radioactive break down, atoms of one agent ar changed into atoms of another element through the emission of of import or beta shargons from their unstable nuclei. With alpha decay the center emits an alpha particle, which is essentially a helium marrow a group of two protons and two neutrons. It is a assortment of nuclear fission where the parent atom crack ups into two daughter products. The nuclear nucleus emits an alpha particle and transforms (or decays) into an atom with a stool number 4 less and atomic number 2 less. For example An alpha particle is the same as a helium-4 nucleus.Unlike beta decay, alpha decay is governed by the strong nuclear force. In beta decay, a neutron in the nucleus of an atom is converted into a proton and an negatron. The electron is step downd as a beta particle. Below is the beta decay of Thorium to produce Protactinium. . In beta minus decay, the weak interaction converts a neutron into a proton part emitting an electron and an anti-neutrino. During beta-plus decay, a proton in an atoms nucleus turns into a neutron, emitting a positron and a neutrino. of import rays fuck be impede by a sheet of paper, shielding against beta rays needs a sheet of metal like aluminium.Nuclear fission differs from other forms of radioactive decay in that it butt end be harnessed and controlled via a grasp reception free neutrons released by each fission event can trigger yet more events. Radioactive decay is spontaneous. Most nuclear fuels chthoniango spontaneous fission only very slowly. Nucleosynthesis in hints hydrogen and helium are the most abundant elements in the universe. Elements heavier than atomic number 3 are all synthesized in stars. This first process of primordial nucleosynthesis may similarly be called nucleogenesis. In the Sun hydrogen is converted to helium in nuclear coalescence reactions 41H 4He + subatomic particlesDuring the late stages of stellar evolution, massive stars scorch helium to car bon, oxygen, silicon, sulphur, and iron. The production of small amounts of hydrogen and helium nuclei molds it possible for the star to synthesise most of the elements in the first three periods of the Periodic table. dickens r divulgees for the extension of atomic number 3 are Route 1 4He + 3H  7Li Route 2 4He + 3He  7Be 7Be + electron 7Li The second route is interesting this is be establish it is a form of electron capture. This is where the collision between an atom and an electron ca personas the proton to convert to a neutron and a neutrino is released.It is sometimes called inverse beta decay, the proton number and the structure of the nucleus is changed. fission and Fusion Nuclear fission is the splitting of the nucleus of an atom into igniter nuclei often producing free neutrons and other smaller nuclei. The emission of these neutrons can cause further fission in other nuclei, thus producing a range reaction.Fission of heavy elements is an exothermic reaction w hich can release astronomical amounts of muscularity both as electromagnetic radiation and as energizing energy of the fragments. Below is an example of nuclear fission, showing Uranium-235 splitting to bring out strontium-90 and xenon-143Inside the reactor of an atomic spring plant, Uranium atoms are split apart in a controlled chain reaction. This chain reaction gives withdraw heat energy. This heat energy is utilize to boil pissing in the core of the reactor. So, instead of burning a fuel, nuclear business officefulness plants use the chain reaction of atoms splitting to change the energy of atoms into heat energy. This water from around the nuclear core is sent to another section of the military unit plant. Here, in the heat exchanger, it heats another set of pipes filled with water to make steam. The steam in this second set of pipes turns a turbine to gene post electricity.Uranium-238 is used as a natural way to control the reaction cod to the fact that it does no t undergo fission. Two other mechanisms used for arbitrary the reaction are the graphite moderator and the control rods, which are made of type B coated steel. The neutrons that are produced when a nucleus splits are very betting moving the graphite slows them down enough so that they cause fission reactions when they collide with Uranium-235 nuclei. The control rods which are made of Boron which absorb neutrons they can be moved in and out of the reactor to control the rate of fission reactions. A typical absorption reaction isBelow is a cross section of the inside of a typical nuclear power plant no.able advantages of fission overwhelm the fact that relatively smaller fuel is needed and the fuel is relatively inexpensive and available in trace amounts around the world. Also, it is not believed to contribute to global warming or other pollution effects associated with fossil fuel combustion. However, its major concerns embroil the possibility for a nuclear meltdown an exampl e could be the Chernobyl Disaster. Also, drift products can be used to manufacture weapons waste from plutonium power stations remains good for thousands of years.There is also high initial cost because the plant requires containment safeguards even then, the power plants are still compromising from sabotage and attacks. Nuclear fusion is the process by which multiple atomic particles join together to form a heavier nucleus. It is accompanied by the release or absorption of energy. The fusion of two nuclei lighter than iron or nickel generally releases energy. Below is an example of a fusion reaction Excess energy is released from the fusion reaction because of the lower binding energy of the helium nuclei compared to those in deuterium and tritium.The combined mass of the products is less than the mass of the reactants the lost mass is converted to energy, according to Einsteins comparison E=mc2 For the below reaction to occur the particles need to form a high-density, super t oothsome, ionized gas plasm. 2H + 3H i?? 4He + 1n Tritium is produced by using lithium in the reactor, where neutrons from the deuterium-tritium reaction in the blood plasma leave react with the lithium to produce more tritium 6Li + 1n i?? 4He + 3H A way to control the plasma is to keep it away from the walls, which minimizes heat loss. To do this a tokamak is used.This device contains hot plasma in a doughnut shape within a vacuum vessel. Powerful magnetic fields created by large coils that officiate around the vessel keep the plasma away from the walls. Powerful electric currents heat the plasma as well as by microwaves that are directed into it and beams of fast neutron particles. Notable advantages to using nuclear fusion include the fact that there is significantly less chance of a bleak accident occurring than that of a fission reactor, because the fuel contained in the reaction domiciliate is only enough to sustain the reaction for about a minute.Also, heavy hydrogen a nd tritium are virtually inexhaustible. Unlike fission reactors, whose waste remains dangerous for thousands of years, most of the radioactive material in a fusion reactor would remain dangerous for about 50-100 years. At present the disadvantage is scarcely the fact that scientists have not yet been able to contain a fusion reaction long enough for there to be a net energy gain. This is, in turn, causing m all countries to phase out fusion research because of the failure to reach a breakthrough. Challenges to the future of fusion power stations The main challenge that scientists face is the growth of hydrocarbon films.Where plasma touches the walls, carbon tiles are eroded by deuterium and tritium ions, producing hydrocarbons. Further reactions turn up in the formation of reactive radicals, which combine with each other to form hydrocarbon films. These films cause problems because they trap the tritium and deuterium fuel ions in the walls of the device so that they are not circul ating in the reacting plasma to produce any energy. Also if the film gets thicker, it begins to flake off, resulting in dust particles which can be absorbed into the plasma, affecting its purity and performance.Other issues include the potentially preventive costs of building, and the difficulties of repairing and maintaining the reaction vessel. This massive blanket of lithium and rare metals will degrade and become radioactive over time, requiring regular dismantling and replacement.No. Words 357+368+294+145 = 1164 (excluding equations, titles, annotations and text in diagrams) sorrySources http//www. answers. com/topic/nucleosynthesis? purify=technology Nucleosynthesis http//helios. gsfc. nasa. gov/nucleo. html Nucleosynthesis http//physics. bu. edu/py106/notes/RadioactiveDecay.html Alpha and beta equations http//map. gsfc. nasa. gov/universe/bb_tests_ele. html Nucleosynthesis http//chemed. chem. purdue. edu/genchem/topicreview/bp/ch23/modes. php.Alpha and Beta decay http //media. nasaexplores. com/lessons/01-060/images/Uran235. jpg Fission of uranium-235 http//hyperphysics. phy-astr. gsu. edu/Hbase/nucene/fusion. html Nuclear fusion http//www. iter-india. res. in/images/jet_tokamak. jpg.Tokamak image, Fig 5 http//www. newscientist. com/channel/fundamentals/dn8827-no-future-for-fusion-power-says-top-scientist. html Problems for fusion power http//eazyvg. linuxoss.com/2007/08/21/fusion-is-the-future-choice-for-nuclear-power-generation/ Fission and fusion diagrams, advantages and disadvantages of fission and fusion.Fig 1 and 3 http//www. physlink. com/Education/AskExperts/ae534. cfm Bond energy per nucleon, Fig 5 Article 1 Box 1 pg3 Article 1 Second paragraph under Nuclear fission pg4-5 Article 1 Box 2 apply for finding out control mechanisms pg6 Article 2 Advantages of fusion power, slipway it produces energy pg8 Article 2 Box 2 Lithium generation and equations pg9 Article 2 Box 2 Fusion reactions pg10 Article 2 Tokamak, problem s facing scientists pg10.
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