One mole of acetyl chloride was mixed with one mole of dimethylamine. After the reaction is...
One mole of acetyl chloride was mixed with one mole of dimethylamine. After the reaction is complete, what species can be found in the mixture? Draw only the organic structures (i.e., omit inorganic ions). Show charges where necessary.
Homework Answers
• The carbonyl compounds readily undergo a nucleophilic addition reaction that involves in the breaking of carbon-oxygen 
double bond.
• The reactivity of carbonyl compounds is due to the electronegative difference between oxygen and carbon.
• The oxygen attached to carbon is more electronegative. So, the oxygen can partially pull the electrons from the carbon atom making it more electron-deficient.
• Due to this, the nucleophile readily attacks the carbonyl carbon and undergoes an addition reaction.
The mechanism of the nucleophilic addition depends on the nature of the nucleophile.
oNucleophile: Nucleophiles are species that donate an electron pair and are also termed as electron hating species.
oElectrophile: Electrophiles are species that accept an electron pair and are also termed as electron loving species.
Dimethyl amine contains nitrogen so it acts as nucleophile as well as base. Nitrogen has negative charge due to the more electronegativity than carbon and hydrogen atom.
The nucleophilic addition reaction of ethanoyl chloride and dimethylamine is
The elimination reaction involved in the reaction is given as
The formation of dimethyl ammonium ion is shown below:
The three organic species are shown below.
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One mole of acetyl chloride was mixed with one mole of dimethylamine. After the reaction is...
1 mole of acetyl chloride was mixed with 1 mole Dimethylamine. After the reaction is complete,...
1 mole of acetyl chloride was mixed with 1 mole Dimethylamine. After the reaction is complete, what species can be found in the mixture? Draw only organic structures and show charges where necessary. there are 3 organic species.
One mole of acetyl chloride was mixed with one mole of dimethylamine.After the reaction is complete...
One mole of acetyl chloride was mixed with one mole of dimethylamine.After the reaction is complete what species can be found in the mixture? (Should include the products when amine acts as a nucleophile and as a base)
(24) One mole of acetyl chloride is added to a liter of triethylamine, resulting in a...
(24) One mole of acetyl chloride is added to a liter of triethylamine, resulting in a vigorous exothermic reaction. Once the reactionmixture has cooled, 1 mole of ethanol is added. Another vigorous exothermic reaction results. The mixture is analyzedand found to contain triethylamine, ethyl acetate, and triethylammonium chloride. Propose mechanisms for the two exothermic reactions.
Part 1 involved MeOH addition to form the key tetrahedral intermediate. Part 2 involves loss of H2O from the Map t...
Part 1 involved MeOH addition to form the key tetrahedral intermediate. Part 2 involves loss of H2O from the Map tetrahedral intermediate to form the ester. Part 2 of 2 Intermediate species (from Part 1); Add two curved arrows for the next step. Hö: CH3 er all remaining steps in the mechanism: 1) Draw each species (organic and inorganic) resulting from the previous step. Each step will include all of, and only, the atoms given in the first step i.e.,...
Draw the major organic product obtained by reaction of benzoyl chloride with dimethylamine, (CH3)2NH. Please show...
Draw the major organic product obtained by reaction of benzoyl chloride with dimethylamine, (CH3)2NH. Please show the smaller molecular weight molecule and the larger molecular weight molecule. Please show both the products. Thanks
Draw the curved arrow mechanism to show the formation of the reaction product on the right....
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Consider the following reaction: Complete the electron-pushing mechanism for the reaction by drawing the necessary organic...
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Two different aqueous solutions are mixed in beakers A and B as shown in the diagram...
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Show the mechanism for the following reaction conducted at –5 °C in CCl4: cyclohexene bromine yields...
Show the mechanism for the following reaction conducted at –5 °C
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structures – including charges and electrons – and add curved
arrows. Details count.
Map do cyclohexene + bromine yields a dibromocyclohexane Draw structures - including charges and electrons - and add curved arrows. Details count. Add curved arrows to the first step. 1l Draw each species (organic and inorganic) resulting from the previous step. Include charges and nonbonding electrons. Add curved...
1) Draw the complete mechanism of the Wittig reaction of benzyltriphenvlphosphonium chloride with 9-anthraldehyde where potassium...
1) Draw the complete mechanism of the Wittig reaction of benzyltriphenvlphosphonium chloride with 9-anthraldehyde where potassium hydroxide is used as the base. 2) In the reaction from question 1, what are the two stoichiometric byproducts? Hint: One is inorganic (contains no carbon atoms) and doesn't contain oxygen. The other byproduct is organic (does contain carbon atoms) and does contain oxygen. Identify them in your mechanism above
(24) One mole of acetyl chloride is added to a liter of triethylamine, resulting in a vigorous exothermic reaction. Once the reactionmixture has cooled, 1 mole of ethanol is added. Another vigorous exothermic reaction results. The mixture is analyzedand found to contain triethylamine, ethyl acetate, and triethylammonium chloride. Propose mechanisms for the two exothermic reactions.
Part 1 involved MeOH addition to form the key tetrahedral intermediate. Part 2 involves loss of H2O from the Map tetrahedral intermediate to form the ester. Part 2 of 2 Intermediate species (from Part 1); Add two curved arrows for the next step. Hö: CH3 er all remaining steps in the mechanism: 1) Draw each species (organic and inorganic) resulting from the previous step. Each step will include all of, and only, the atoms given in the first step i.e.,...
Draw the curved arrow mechanism to show the formation of the reaction product on the right. Complete all structures to include the electrons and charges necessary for each step. Do not draw any electrons or charges on NO2 or draw any inorganic spectator ions or byproducts. Reagents needed for each step are provided in the boxes. If given a choice, draw the resonance structure with a complete octet.
Consider the following reaction: Complete the electron-pushing mechanism for the reaction by drawing the necessary organic structures and curved arrows for each step. Make sure to include all nonbonding electron pairs. treatment with D_2O Add curved arrows for the second step. Do not show Na+ counter ion. treatment with NaBH_4 Add curved arrows for the first step. Treat Na+ as a spectator ion. Final products Draw the products of the last step (one organic and one inorganic species), including all...
Two different aqueous solutions are mixed in beakers A and B as shown in the diagram below. Beaker A Beaker B iron(II) sulfate lead(II) nitrate and sodium chloride and magnesium nitrate a) Write the balanced molecular equation that occurs in each beaker. Assigned the corresponding physical states for each substance. b) Identify the product of each reaction, include: chemical name, formula, and physical state. If no reaction occurs, write “No reaction” and justify your answer. c) Classify the chemical reaction...
Show the mechanism for the following reaction conducted at –5 °C
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arrows. Details count.
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1) Draw the complete mechanism of the Wittig reaction of benzyltriphenvlphosphonium chloride with 9-anthraldehyde where potassium hydroxide is used as the base. 2) In the reaction from question 1, what are the two stoichiometric byproducts? Hint: One is inorganic (contains no carbon atoms) and doesn't contain oxygen. The other byproduct is organic (does contain carbon atoms) and does contain oxygen. Identify them in your mechanism above
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