Draw an arrow-pushing mechanism for the sulfuric acid-catalyzed hydration of an alkene. Draw an energy diagram...
Draw a complete arrow pushing mechanism for the acid catalyzed hydration of 3 methyl 1 butane. Draw each step on a new line there are 4. Circle the final organic product of the reaction. Fill in each box with the best reagent to accomplish each trans formation:
Practice: Show the product and mechanism for the hydration of cyclohexene in a reaction catalyzed by sulfuric acid. A similar reaction can be used to make ethers (instead of alcohols) using an alcohol (instead of water). This reaction is called alcoholysis of an alkene. Practice: Draw the product and mechanism for the alcoholysis of 2-methylpropene and methanol with sulfuric acid.
Provide the product for the following reaction. Propose an acid catalyzed mechanism for this reaction. Specify if this reaction is general acid or specific acid catalyzed reaction. Draw free energy diagram for this reaction based on your mechanism. Make sure to include reaction intermediates in your free energy diagram (12 points total) NH 2 pH 3
Draw the mechanism for the hydration reaction including arrow pushing and electrons H PO, HO
Draw the mechanism for the hydration reaction including arrow pushing and electrons H,SO HO
Draw the mechanism for the hydration reaction including arrow pushing and electrons H,SO, он
Provide a mechanism for the following reaction. Show arrow pushing and any intermediates. 6. Provide a mechanism for the following reaction. Show arrow pushing a n for the following reaction. Show arrow pushing and any intermediates. OCH3 CH3 methanol OH sulfuric acid (catalyst)
Consider the mechanism for the following acid catalyzed hydration. Select all of the species that are intermediates in the mechanism for this reaction. XHOP. LOH oby None, the reaction is concerted and doesn't have any intermediates.
Consider the serine protease, chymotrypsin. Draw the energy diagram of the reaction catalyzed by chymotrypsin and label all relevant points (intermediates, transition states, reactants, products) a. Draw a dipeptide as a general substrate for chymotrypsin, and draw out the mechanism (use arrows!) describing the proteolytic reaction from the beginning until the covalent intermediate (not the tetrahedral intermediate). b.
3. Draw a stepwise, detailed mechanism for the acid-catalyzed hydration reaction in question 2 above. Use curved arrows to indicate the flow of electrons. (Note: use hydronium ion, H307, in your mechanism to indicate "acidic water"). (6 pts) 4. Draw a stepwise, detailed mechanism for the reaction below. Use curved arrows to indicate the flow of electrons. (Hint: think of this reaction as a combination of addition of HX (step 1) and hydration (step 2)]. In the second step, an...