Phosphoric acid Essays

Results and Discussion One of the objectives of this exercise is to synthesize acetylsalicylic acid (aspirin) from salicylic acid. The mechanism for this synthesis is through nucleophilic acyl substitution. Acetic anhydride was the acetylation reagent used with the salicylic acid. The mechanisms and the reaction involved in the synthesis are seen in the following figure. 1.00 gram of fine white salicylic acid powder was weighed in a clean, dry 125mL Erlenmeyer flask. 3mL of strong smelling, clear colorless

effect does temperature of the chemical reaction have on the activation energy ? ICT: Microsoft Word Autograph Microsoft Excel Introduction This experiment is designed to help in estimating the activation energy of the rate-limiting step in the acid catalyzed reaction of acetone with iodine. This is achieved by measuring the reaction rates at different reaction temperatures over the experiment. Once the raw data is obtained, I will analyze the data with the help of an Arrhenius plot. This is a

A Narrative/Descriptive Essay Mclainn Diaz & Cara Obas BC12-MM March 2, 2016 “Banning smoking in public places” In our generation today, a lot of people now are engaging themselves in different kinds of things that can pleasure their own selves. Some use drugs to relieve stress; some drink alcohol to forget all the worries and problems which is really not a solution at all, and some smoke just to pleasure themselves. But for young people, they smoke for to look mature, to blend on what their

detrimental to human teeth. Human teeth are covered in a hard substance called tooth enamel, which is made of hydroxyapatite. Enamel is the hardest tissue in the body and is vital in protecting teeth from decay (Callison, 2018). Enamel erosion occurs when acids wear away at the teeth and can result in painful temperature sensitivity, discolouration, cracks and chips, and indentations appearing on the teeth, and will result in cavities (Smith, 2013). While it is known that soft

resolution and detection limits, so that the to walk two dimensions. To phospholipids visible on the TLC plates are used detection reagents. spots corresponding phospholipids may be carbonized by the addition of phosphomolybdic acid, sulfuric acid or copper sulfate in phosphoric acid, and then heating of the sample. The result charred spots can be scraped off the plate and measured by densitometry. In order to visualize the spots without charring, solutions such as rhodamine 6G or berberine can be used

technique. Acids & Bases Water is the most common acid and base found on earth. An acid is anything that can donate a proton/H+ and a base is anything that can accept a proton/H+ – Bronsted-Lowry. Water being able to both accept and donate a proton/H+ is both an acid and base. H-Cl (aq)+H2O Cl- + H3O+ this equation shows hydrochloric acid in an aqueous solution reacting with water to form chlorine and hydronium. Here water is acting as a base as it accepts a proton from the

DETERMINATION OF PHOSPHORIC ACID IN THE SOFT DRINKS Black coloured soft drinks such as Coke from Coca Cola and Pepsi contains Phosphoric Acid in them. An experiment will be conducted here to determine the quantity of Phosphoric Acid content in the black coloured soft drinks. In the beginning of the experiment the preparation and standardization of a base solution will be made. Materials Required: 1. Pellets of Sodium Hydroxide (NaOH) 2. Phenolphthalein solution (1%) 3. Potassium acid phthalate (KHC8H4O4)

completing three acid and base neutralization reactions using phosphoric acid, which is a triprotic acid, with different volumes of sodium hydroxide. Introduction Procedure Phosphoric acid solution with a volume of 1.00 mL and a molarity of 6.00 M was transferred into a 125-mL Erlenmeyer flask using a volumetric pipette. Sodium hydroxide solution with a volume of 6.00 mL and a molarity of 3.00 M was transferred into a 50 mL beaker using a volumetric pipette. While swirling the phosphoric acid solution

Traveling from the U.S. mint into the hands, pockets, and wallets of citizens, ultimately, pennies will develop a dirty look due to daily interactions with their surroundings. In recent years, many have discovered possible solutions to restore the original shine of copper pennies. In order to determine what solution most effectively sterilizes our common pocket money, it is crucial to understand what makes pennies dull in the first place and what can counter this reaction. Over time, pennies receive

cellulose (HEC) as membrane material was purchased from Sigma Aldrich. Levulinic acid (LA), ethanol, phosphoric acid, sodium hydroxide was obtained from Merck Chemicals. The catalyst tungstosilicic acid hydrate and solvent isopropanol were supplied by Sigma Aldrich. 2.2. Membrane Preparation The catalytic composite membrane was prepared by solution casting and coating technique. The composite membrane consisted of tungstosilicic acid hydrate loading HEC top layer on HEC separation layer. 5 wt.% HEC was dissolved

Abstract. Electrochemical method has been developed to produce hydroxyapatite (HA) powders. Synthesis of hydroxyapatite particles was carried out from a homogeneous solution. The homogeneous solution was contained of Na2H2EDTA.2H2O, KH2PO4 and CaCl2 on 0.25/0.25/0.15 M. Water reduction at cathode to form OH- ion is very substantial in formation of hydroxyapatite. The OH- ions causes the release of Ca2+ ions and change the equilibrium phosphate for the formation reaction of HA. The problem of electrochemical

belongs to class of haemostatic compound that blocks prostacycline synthetase, an enzyme that converts arachidonic acid to Prostacycline and therefore increases platelet aggregation and platelet adhesiveness. It is used for the prevention and treatment of capillary haemorrhage, and postpartum haemorrhage. Ethamsylate is official present in British pharmacopoeia. [3] Tranexamic acid

Standard Preparation: 100 mg of standard ascorbic acid was weighed precisely and transferred to a 100 ml volumetric flask, added 70 ml of 0.5% sodium metabisulphite and dissolved by shaking. The volume was made up to the mark with 0.5% sodium metabisulphite for getting a concentration of 1 mg/ml. 2 ml of this solution was taken into another 100 ml volumetric flask and made the volume up to the mark with 0.5% sodium metabisulphite which resulted in concentration of 0.02 mg/ml. The solution was filtered

mined, phosphate rock is separated from particles of sand and clay and sent to a processing plant. These processes are usually wet to enable material transport and to reduce dust. Phosphate rock is THEN mixed with sulphuric acid to produce weak phosphoric acid. This phosphoric acid is mixed with various other minerals to produce liquid or solid fertilizers. Theses process vary with respect to the fertilizer being produced. Frequently manufactured fertilizers are triple superphosphates (SSP, TSP) and

(SD fine limited). Analytical grade hydrochloric acid ,sodium hydroxide flakes, hydrogen peroxide. Milli-Q Water purchased from market.. 2.3 Details of Method Chromatographic conditions: Reversed Phase High Performance liquid chromatography method with UV detection separation was achieved on zorbox Agilent Eclipsc XDB column c18(150 nm× 4.6 mm×5µm) as stationary phase with binary gradient mode solvent phase A. Composed of H3PO4(ortho phosphoric acid ) buffer ( pH ≈2, 0.02M) and phase B as Acetonitrile

titration with sodium hydroxide solution. Introduction: Carbon dioxide plays an important role in soft drinks. Soda water is manufactured by pumping carbon dioxide into water under high pressure. Carbon dioxide dissolves in water to form carbonic acid, which is the fizz we find in soft drinks. CO2 + H2O ⇌ H2CO3 The popping sound we hear when we open the can of fizzy drink, the bubbles and sparkle we see in the soft drink, and the feeling of bubble popping on your tongue, all of these are due

waters (Environment Canada 2012). Through a dual oxidation process, Nitrate is formed in a reaction of Nitrogen with Ammonium ion producing fertilizer and manure. The oxidation state of a nitrate compound is 1- . Nitrate is the conjugate base of nitric acid (HNO3), a strong

role of stomach acid Chapter 14 section 1 Noopur Rajendra Grade – 11AA 25/04/2016 Ms. Sara Kassem Sharjah American International School Discuss the role of hydrochloric acid in the digestion of foods. Point out how excess acid contributes to the discomfort known as indigestion. Explain how the stomach secretes a mucous layer, which protects it from being damaged by the hydrochloric acid it produces. Abstract Hydrochloric acid, which is also called HCl, is a highly corrosive acid. It is a strong

oxygen in extreme cases it could cause death. It could react with other chemicals causing more sickness. If you consume nitrate then you could just get small stomach flu, but when pregnant, or a baby it could cause much worse because your stomach acids are different.

The aim of the investigation was to determine the effect of pH on the rate at which catalase decomposes hydrogen peroxide and consequently answer the researchable question “How does pH influence cells and consequently an organism”. The hypothesis, “As the pH deviates from 7 the initial rate of oxygen production will decrease” is supported by the results. The trend displayed in Figure 3 is, as the pH deviates from 7 the initial rate of reaction decreases. Figure 3 shows that the rate of reaction (%O2/s)