2. (6 pts) For each reaction below, i) draw the mechanism (curved arrow flow of electrons),...
3.46 For each reaction below, draw a mechanism (curved arrows) and then predict which side of the reaction is favored under equilibrium conditions: ОН HO + ol (a) HOH (b) ~ SH + + 2 OH SO H.S urs aw (c) SH = 1
Use the curved-arrow notation to indicate the flow of electrons in the reaction. (To draw the arrows, click on the reaction to enter the edit mode, then click on the curved-arrow icon.)
Use the curved-arrow notation to indicate the flow of electrons in the reaction. (To draw the arrows, click on the reaction to enter the edit mode, then click on the curved-arrow icon.)
use the curved-arrow notation to indicate the flow of electrons in the reaction. (To draw the arrows, click on the reaction to enter the edit mode, then click on the curved-arrow icion.)
3. Mechanism: Draw the curved arrow mechanism for the following hydrolysis reaction, only draw the mechanism from the starting material to the neutral functional group intermediate. Additionally, indicate what is in the final product by writing Y="appropriate atom here". Use only the reagents provided below, in your mechanism. (5 pts) excess NaOH H2O, heat HNĐ neutral functional group intermediate 9. Mechanism: Draw the curved arrow mechanism for the following reaction. Please be aware that during the mechanism you will form...
provide a detailed reaction mechanism for each of the reactions below. use curved arrow notation to describe the flow of electrons. you do not need to show resonance stabilization of intermediates. To0-H HaC CH Nao DEL notu NaDEt: NAD CHauhs ELOHE CH CHAuh CH
Add one curved arrow to each reactant box below to illustrate die movement of electrons in the E1 reaction (In the second box, there will be a total of two curved arrows, one of which is drawn for you.)
Add one curved arrow to each reactant box below to illustrate die movement of electrons in the E1 reaction (In the second box, there will be a total of two curved arrows, one of which is drawn for you.)
2. (a) (i) Draw an arrow-pushing mechanism that illustrates the electron flow in the acid-base reaction below. Use the structures shown below in your arrow-pushing mechanism. (4pts for correct mechanism). (ii) Using pKa values indicated in Table 1.8 (round to nearest whole number) and estimate the equilibrium constant for this reaction (Keq). Show work which led to this value. (3pts for work, 1pt for correct Keq indicated). (iii) Draw a base (assuming the same acid provided below) that would reverse...
“Fun in acid” question: Draw a reaction mechanism using the curved-arrow formalism (include lone pair electrons) for the conversion of an ester into an alcohol and a methyl ester in the presence of acid in excess methanol. Hint: 6-steps.