nitronium ion. Electrophilic aromatic substitution is a method used when a functional group is needed to be substituted on to an aromatic compound. In the nitration‚ nitronium ion acts as the electrophile that involves the attack of the electron-rich Benzene ring. [3] In this experiment nitration is carried out using acetanilide and allows this chemical to be used in a way that could be beneficial for our use. Procedure Gathering products Weighed out 0.202g of acetanilide powder and add 500µl
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SEGi University Extraction of Benzoic Acid by Balvinder Singh (SCM 015 677) Lab Partners: 1) Surrean Rao 2) Wong Kai Jun 3) Kanaga Luckshimi 4) Sasiskala Regal ECE2332 Chemical Engineering Practices Submitted: 1st October 2013 Supervisor: Mr Ayman William 1.0 Abstract /summary The purpose of this experiment to carry out in the lab is because to determined the capability to water droplet to carry out the liquid-liquid extraction. The studies is to determine
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system as a whole are outlined‚ and methods for the regeneration of the aromatic components are described. TRICARBONYLBENZENECHROMIUM (I) was first obtained by Fischer and Ofele in 27% yield from chromium hexacarbonyl and dibenzenechromium in benzene in a sealed system at 220". We had independently discovered a simpler and more general method for preparing compounds of this type which involves heating chromium hexacarbonyl under reflux in an excess of the aromatic compound or with a molar quantity
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unique distinguishing properties. Unlike in alcohols where the hydroxyl group is bound to a saturated carbon atom‚[5] in phenols the hydroxyl group is attached to an unsaturated aromatic (alternating double and single bond) hydrocarbon ring such as benzene.[6] Consequently‚ phenols have greater acidity than alcohols due to stabilization of the conjugate base through resonance in the aromatic ring. Contents [hide] 1 Properties 1.1 Acidity 1.1.1 Phenoxide anion 1.1.2 Tautomerism 1.2 Reactions
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EXPERIMENT 8 BOILING POINT n-Butyl Alcohol n-Butyl Alcohol‚ a four carbon straight chain alcohol‚ is a volatile‚ clear liquid with a strong alcoholic odor; miscible with water. It is flammable strongly with a luminous flame. Formula: C4H9OH Boiling point: 118 ºC Melting point: -89 ºC Tert-Butyl Alcohol Tert-Butyl Alcohol or “2-methyl-2-propanol” is the simplest tertiary alcohol. It is one of the four isomers of butanol. Tert-Butanol is a clear liquid (or a colorless solid‚ depending on
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Industry Definition This industry comprises companies primarily engaged in the manufacture of petrochemicals which are chemicals derived from petroleum and natural gas. Key products include ethylene‚ propylene‚ butylenes‚ benzene‚ toluene‚ styrene‚ xylene‚ ethyl benzene and cumene. These are basic building blocks used in the production of a variety of products including consumer products‚ automotive components and various durable and non-durable goods. Report Contents Risk Overview
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SEPERATING CYCLOHEXANE AND TOLUENE BY DISTILLATION Aim: Separate two miscible liquids‚ either by macroscale or microscale process‚ using simple and fractional distillation. Compare the efficiencies of simple and fractional distillation. INTRODUCTION: The purpose of this experiment is to learn how to separate two miscible liquids by microscale process. There will be use of simple and fractional distillation. Simple and fractional distillation efficiencies will be compared. The student should have
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UN 1076 – Phosgene HAZARDS: Phosgene is a highly toxic‚ irritating and corrosive gas. Inhalation can cause fatal respiratory damage. Phosgene reacts violently and decomposes to toxic compounds on contact with moisture‚ including chlorine‚ carbon monoxide and carbon tetrachloride. In case of skin contact: If liquid phosgene (below 8.2 deg C) contacts the skin or clothing‚ an inhalation exposure should be suspected. Hazards due to skin contact with the gas is unknown. Phosgene does‚ however‚ react
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Nitration of Methyl Benzoate Abstract: This procedure demonstrates the nitration of methyl benzoate to prepare methyl m-nitrobenzoate. Methyl benzoate was treated with concentrated Nitric and Sulfuric acid to yield methyl m-nitrobenzoate. The product was then isolated and recrystallized using methanol. This reaction is an example of an electrophilic aromatic substitution reaction‚ in which the nitro group replaces a proton of the aromatic ring. Following recrystallization‚ melting point and infrared
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Electrophilic Aromatic Substitution Objective The objective of this experiment was to illustrate electrophilic aromatic substitution by synthesizing p-nitroanilide (as well as ortho) from acetanilide by nitration. The para form was separated from the ortho form based on solubility properties using recrystallization techniques. Synthetic equations: Physical Properties & Hazards of Reagents/Products: (all taken from Sigma-Aldrich website) Acetanilide MM = 135.16 g/mol Melting point =
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