Preparation of Bromotriphenylmethane Abstract The structure of a major component of star anise oil was derived by analyzing its IR spectroscopy melting point of after oxidation and purification. From the evidence obtained‚ it was concluded that the exact structured should be p-methoxybenzoic acid. Introduction The purpose of this experiment is to determine the structure of the major component of star anise oil. It is already known that this component has a molecular formula C10H12O. This
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purpose of this lab is to test the reactions of primary‚ secondary‚ and tertiary alcohols with acid and with an oxidizing agent. Materials: chemical safety goggles dropper bottles including: butan-1-ol butan-2-ol 2-methylpropan-2-ol potassium permanganate solution‚ KMnO₄(aq) (0.01 mol/L) concentrated hydrochloric acid‚ HCl(aq) (12 mol/L) eyedropper lab apron protective gloves test tube rack Procedure: 1) Appropriate safety apparel including chemical safety goggles‚ apron‚ and protective
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IB Chemistry Lab Report Design Example— Effect of Temperature on Solubility of Potassium Chloride in Water Research question How does temperature affect the solubility of potassium chloride in water? Hypothesis As the temperature of water increases‚ the particles of solid Potassium chloride‚ KCl‚ which are absorbing energy from its surrounding‚ start moving more easily between the solution and its solid state because. According to the second law of thermodynamics‚ the particles will
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to product and the rate of reaction. The remaining substrate from the reaction is equal to the initial amount of the substrate minus the amount converted to product by the enzymatic action. MATERIALS 3% hydrogen peroxide Sulphuric acid (1M) Potassium permanganate solution Soaked beans‚potatoes‚apple and chicken meat Razor blades Lime juice Test tubes and racks Ice‚beakers Watch plates Burettes Water bath Conical flask METHODS Experiment 1:Observing redox
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Lab 22: 4-Methylcyclohexene Abstract: We treated 4-methylcyclohexanol with phosphoric acid‚ and after purification we produced the end product 4-methylcyclohexene. We determined we had a pure product based on the results of the tests with Br2 and KMnO4‚ as well as the IR absorbtion spectrum of the final product. Purpose: The purpose of this experiment is to obtain pure 4-methylcyclohexene by reacting 4-methylcyclohexanol and phosphoric acid. Through distillation
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Lab – Solubility Curve for Potassium Nitrate I. Purpose: To plot a solubility curve for potassium nitrate in aqueous solution. II. Safety: Wear eye protection throughout the experiment. Be cautious of hot water. Wash hands if you come into contact with potassium nitrate. III. Procedure: 1. Carefully weigh out your assigned mass of potassium nitrate on a piece of weigh paper. Carefully pour the sample into the large test tube. 2. Add 20. mL of distilled water to the tube.
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cyclohexane that react with bromine under present of UV light will change to slightly brown while the other one has no changeous which is still brown.For baeyer’s test‚the alkane which is heptanes will not undergo the oxidation reaction with potassium permanganate due to saturate bond .Thus‚will forming two layer will form which the solution does not mix.While on the other hand‚2-pentene will react with sulphuric acid to form penta-2‚3-diol.The purple color of KmnO4 will change to brown CH3CH=CHCH2CH3
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The Relationship Between the Rate of Diffusion and Molecular Weight as Observed in Postassium manganate‚ Potassium dichromate‚ and Methylene Blue Elisha Padilla Group 3 Sec. X – 8L March 26‚ 20151 ABSTRACT The relationship between the rate of diffusion and the molecular weight of a substance was determined by introducing three substances (KMnO₄‚ K₂Cr₂O₇‚ C₁₆H₁₈N₃SCl) of different molecular weight to agar-water gel‚ and measuring the distance of diffusion every
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Determination of Concentration of Potassium Hydroxide Weigh boat 0.87g Weigh boat + Sulphamic acid 3.29g Weigh boat after transfer 0.87g Sulphamic acid 2.42g | Trial | 1st | 2nd | 3rd | 4th | 5th | Start | 3.00 | 3.20 | 5.20 | 18.55 | 1.90 | 14.65 | Finish | 17.35 | 18.10 | 18.10 | 31.50 | 14.65 | 27.65 | Titre | 14.35 | 14.90 | 14.90 | 12.95 | 12.75 | 13.00 | Average titre = 12.90cm3 NH2SO3H + KOH – NH2SO3K + H20 Sulphamic Acid Standard Solution Moles from mass
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g/mol) and Potassium Permanganate (158 g/mol). This subjects have varying molecular weight‚ one higher than the other. It is important to note whatvis Molecular Weight. MW is the sum of the mass of each constituent atom multiplied by the number of atoms that element in the molecular formula. With the aid of agar plates‚ we put some substrate on it for purpose of observation. Having a time-interval of 15 minutes‚ we gathered the data for interpretation. As it all went out‚ Potassium Permanganate having
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