Pre-requisite: None 4. Co-requisite: None 5. Credit: 2 units 6. Course Description: A course designed for freshmen engineering students‚ it covers the structure of the atom‚ writing chemical formulas‚ naming of compounds and stoichiometry involving chemical formulas and reactions. 7. Student Outcomes and Relationship to Program Educational Objectives |Student Outcomes |Program Educational
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of the substance involved in the stoichiometric equation‚ so that in the reaction: concentration. It is most common to compare initial rates‚ that is‚ the gradient of the tangent to the curve at t = 0. At this time the concentrations of the reagents are accurately known‚ as is the temperature of the system. It is also easiest to draw tangents at this time as this section of the curve is the most linear. Typical curves
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Abstract The article describes a technique for processing liquid radioactive waste water using membrane techniques to single out only radioactive waste components without affecting the salt ballast. This solution dramatically reduces the amount of radioactive concentrates to be long-term storage‚ and provides an opportunity to re-use treated water and chemicals. Keywords. Liquid radioactive waste‚ radioactive waste water purification‚ reverse osmosis‚ selective extraction of radionuclides. Introduction
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advancements are the major driving factors for the market. Widespread knowledge of healthcare & its benefits‚ and cost effectiveness are some top impacting factors of the global IVD market. The stringent regulatory policies and reimbursement issues are limiting the growth of the market. Furthermore‚ the rising demand for technologically advanced diagnosis devices and increased spending capabilities of consumers on health care provides huge potential for IVD in Asia Pacific market. To Get Details: http://www
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of Reagents: Compound (g) Molecular Weight (g/mol) Grams (g) Moles 6 mL of 2-methylcyclohexanol (C7H14O) 114.19 g/mol 6 mL x 0.943g = 5.66 g 1 mL 5.66 g x 1mol = .0496 mol 114.19 g 5 mL of 85% phosphoric acid (H3PO4) 98.0 g/mol 5 mL x 2.01 g = 10.05 g 1 mL 10.05 g x 1mol = .1026 mol 98.0 g Drying Agent Sodium Sulfate Na2SO4 142.04 g/mol Ice Water Bath (H2O) Boiling Stone The reagents are to be in a 1:1 molar ratio. The limiting reagent is 2-methylcyclohexanol
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COURSE SYLLABUS DEPARTMENT COURSECODE / Course Title Prerequisite : COURSECODE Prerequisite to : COURSECODE/S Type of Course : (major course‚ basic course) Faculty : (give names of faculty / if course is not departmental) Term/Time/Room : (e.g. Term 3 SY 2008-09; MWF 0700-0800; L000) Course Description : (introduces synopsis of course) Objectives/Values : (enumerates purposes of course‚ knowledge‚ skills‚ values and competencies expected to be developed‚ and output expected
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November 15‚ 2007 Synthesis of 1-Bromobutane Introduction: The purpose of this experiment is to synthesize 1-bromobutane from 1-butanol and sodium bromide. In order for this reaction to reach completion there are four major operations that need to be performed. The four major operations include refluxing‚ simple distillation‚ separation‚ and drying. To begin‚ in order for the compounds to react they will be dissolved in water and sulfuric acid will be added. The addition of sulfuric acid will
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Title: Finding the Ratio of Mole of Reactants in a Chemical Reaction Purpose of Lab: To find the coefficients of two chemical reactants that appears in a balanced chemical equation using the continuous variations method. Pre Lab Questions: 1. 2AgNO3(aq) + K2CrO4(aq) → 2KNO3(aq) + Ag2CrO4(s) 2. There is enough to make a valid conclusion because‚ on the graph‚ one can clearly see that the two lines intersect. Thus‚ one can also determine the mole ratio. The mole ratio is approximately
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74.4422 MP=NA‚ BP=40dec 1.209 1.1mL Oxidizing Agent Sodium Thiosulfate Na2O3S2 158.0977 NA 1.667 1.0mL Extraction Hydrochloric Acid HCl 36.4609 MP=-114.2‚ BP=-85.1 0.909 0.6mL Acid Agent Limiting Reagent and Theoretical Yield: (0.1g Vanillin/152g/mol) = 6.58 x 10^-4 mol Vanillin  Limiting Reagent (0.117g NaI/150g/mol) = 7.8 x 10^-4 mol NaI Theoretical Yield: (6.58 x 10^-4 mol Vanillin/1)(279g/mol)  0.18g product Procedure: In an Erlenmeyer flask (or beaker)‚ dissolve
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Experiment 22: Synthesis of Aspirin and Oil of Wintergreen Performed 01/31/2013 Received 02/07/2013 Organic molecules have a wide range of applications occur both intracellular as well as in many different industries. The reactions use the reactivity of functional groups attached to organic molecules‚ as well as general chemistry concepts such as Le Chatelier’s Principle (). The synthesis of Aspirin (its chemical name being acetylsalicylic acid) and of oil of wintergreen (with its chemical
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