This form can be used for reporting analyses of volatile organic compounds‚ semi-volatile‚ petroleum hydrocarbons‚ PCBs‚ pesticides‚ herbicides‚ and other organics. Page 1 of 3: Analytical Result A. Header Information 1. After "Project No:"‚ enter the client’s project number (from cover page 1). This number is required on every page of the report. 2. After "METHOD"‚ enter the analytical method used. (e.g.‚ EPA 8260‚ or EPA method 8021). 3. After "REPORTING UNIT"‚ enter the appropriate
Premium Benzene Volatile organic compound Analytical chemistry
Gringard reagents are a class of extremely reactive chemical compounds used in the synthesis of hydrocarbons‚ alcohols‚ carboxylic acids‚ and other compounds. A gringard reagent is an organic magnesium halide dissolved in a nonreactive solvent (like diethyl ether). The substance is made up of an organic group joined by a high polar covalent bond to magnesium‚ while magnesium is joined by an ionic bond to a halogen (like bromide) a gringard reagent will react with water‚ oxygen or almost any other electrophilic
Premium Magnesium Chemistry Diethyl ether
that donate their pair of electrons to form a new bond. They can also be called Lewis bases as they accept proton from electrophilic species. Grignard reagent can be simply prepared by redox reaction of magnesium metal and alkyl halide in dry diethyl ether solvent. In this experiment the alkyl halide use is bromobenzene‚ to form the reagent phenylmagnesium bromide. Figure 1: reaction of Mg and bromobenzene. Phenylmagnesium bromide was expected product of this reaction however there are some by-product
Premium Nucleophile Magnesium Alcohol
separatory funnel due to there being so much white precipitate that the mixture had turned to a paste as opposed to a liquid. The aqueous layer was accidentally not drained between adding the two different ether fractions‚ so the aqueous layer was drained after that and 10 ml of extra diethyl ether were added. Various increased amounts of water‚ sodium bicarbonate and sodium chloride solutions were added to treat this increased volume‚ and thus the final amount of product was larger than intended and
Premium Chemistry Solvent Diethyl ether
The Grignard Synthesis of Triphenylmethanol Organic Chemistry Lab II March 19‚ 2012 Abstract The purpose of this experiment was to synthesize the Grignard reagent‚ phenyl magnesium bromide‚ and then use the manufactured Grignard reagent to synthesize the alcohol‚ triphenylmethanol‚ by reacting with benzophenone and protonation by H3O+. The triphenylmethanol was purified by recrystallization. The melting point‚ Infrared Spectroscopy‚ 13C NMR‚ and 1H NMR were used to characterize and confirm
Premium Magnesium Oxygen Solvent
Tie-Dye Grignard Synthesis Abstract: 4-Bromo-N‚N-dimethylaniline underwent a Grignard reaction with diethyl carbonate to produce a type of the tie-dye chemical triarylmethane. This specific triarylmethane produces a vivid crystal violet color when dyed. The experiment was first heated under reflux to produce the necessary Grignard reagent as a grey liquid. It was then reacted with diethyl carbonate and hydrochloric acid to produce crystal violet. The resulting chemical was very absorbent to polypropylene
Premium Chemistry Oxygen Diethyl ether
Objective: The purpose of this experiment was to prepare the Grignard reagent methylmagnesium iodide and react it with benzoin to form the 3o alcohol 1‚2-diphenyl-1‚2-propanediol‚ through an addition reaction pathway. Introduction: Grignard reagents are alkyl or aryl-magnesium halides that act as the nucleophile in Grignard reactions‚ where ketones are reacted with the reagent‚ then treated with acid to produce an alcohol. In the case of this experiment‚ methylmagnesium iodide was created
Premium Magnesium Diethyl ether Methane
Separating Acids and Neutral Compounds by Solvent Extraction Introduction The purpose of this experiment was to use solvent extraction techniques in order to separate a mixture consisting of a carboxylic acid (p-toulic acid)‚ a phenol (p-tert-butylphenol)‚ and a neutral compound (acetanilide). Extraction is the process of selectively dissolving one or more of the compounds of a mixture into an appropriate solvent‚ the solution that contains these dissolved compounds is called an extract (Manion
Premium Chemistry Solubility Solvent
initially was a brown color which then turned a milky white color with the addition of bromobenzene and ether. The mixture turned back to a brown color with the addition of the remaining bromobenzene and ether added at a dropwise rate. The reaction vessel became warm at this point. The mixture then turned a reddish‚ pink color with the addition of 9.1g benzophenone in 100mL anhydrous ethyl ether. During the reflux the reaction mixture first turned a “pepto bismal” pink color then became a thick
Premium Chemistry Chemical reaction Alcohol
response to explain why the reactions would fail under the given conditions. 4) THF is readily soluble in water while a similar solvent molecule‚ diethyl ether‚ is completely insoluble in water. What major intermolecular force is responsible for such a solubility property? Why is this force more likely to participate with THF than with diethyl ether? 2 Vanden Eynden CHM2510 AU13 Practice Midterm Exam #2 5) Predict the products for the following reactions. If more than one product
Premium Solvent Diethyl ether Solubility