Label the following parts (1-4) of the refractometer: 3 2- Use curved arrow notation to draw...
Use curved arrow notation to draw the mechanism for the following reaction: Br 1. Mgº, ether 2. 3. H30+
Use the curved-arrow notation to draw the mechanism for the following reaction: 1.) Mg/ether Br 2.) H20
Use the curved arrow notation to draw the mechanism for the following reaction: 1.) Mg/ether O 2.) Br 3.) H2O Upload Choose a File
PM Wed Jul 29 1 pts Question 3 Use the curved arrow notation to draw the mechanism for the following reaction: 1.) Mg/ether о 2.) Br 3.) H2O C1 Upload Choose a File
• Use the curved-arrow notation to draw the mechanism for the formation of 2-methyl-2-hexanol from n-butylmagnesium bromide. • Discuss, using the mechanism, why it is important to use anhydrous diethyl ether in this reaction. • Describe how you would purify the final product by distillation. What obstacles would you run into?
4 4) Write the reaction product and use the curved arrow notation to draw a mechanism that accounts for the formation of product upon oxymercuration/ reduction of cis-4-hexenoic acid in aqueous THF. (8 points) a) Write the reaction. 1) Hg(OAC), aq, THE 2) NaBH, aq. THE HO cis-4-hextenoic acid b) Write a mechanism.
Using appropriate curved arrow notation, draw a stepwise mechanism for the reaction. Br^- HBr H^+ Br^+ H_2O
A. Products and Mechanism 1. Draw a detailed step-wise mechanism using curved arrow notation for the following reaction: EtO E t 1. xs PhMgBr 2. HCI, H,0
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.)