Consider the reaction of 2-methyl-1,3-cyclohexadiene with HCI. Assuming that the reaction takes place at a very low temperature:
(a) draw the intermediate and product structures, Including any formal charges.
(b) What is the major product of the reaction at very low temperatures?
Both products are formed in equal amounts.
The 1,2-addition product.
The 1,4-addition product.
(c) Is the reaction under rate control or equilibrium control under the conditions stated above?
The reaction is under rate control (kinetic).
The reaction is under equilibrium control (thermodynamic).
Unable to determine.
In the reaction profile diagram below, the products will be at lower energy than reactant.
Consider the reaction of 2-methyl-1,3-cyclohexadiene with HCI. Assuming that the reaction takes place at a very low temperature: (a) draw the intermediate and product structures, indluding any formnal charges. more stable resonance formless stable resonance form HCI CI CI Scroll down for parts (b) and (c) (b) What is the major product of the reaction at very low temperatures? O Both products are formed in equal amounts. O The 1,2-addition product O The 1,4-addition product. (c) Is the reaction under...
Consider the reaction of 2-methyl-1,3-cyclohexadiene with HCl. Assuming that the reaction takes place at a very low temperature: (a) draw the intemediate and product structures, including any formal charges. more stable resonance form less stable resonance form НC cr сг Cl Scroll down for parts (b) and (c). Cl Exit Next Try Again Give Up & View Solution Previqus (b) What is the major product of the reaction at very low temperatures? Both products are formed in equal amounts. O...
Answer Questions below for points What is the major product of the reaction at very low temperatures? Both products are formed in equal amounts. The 1, 2-addition product. The 1, 4-addition product. Is the reaction under rate control or equilibrium control under the conditions stated above? The reaction is under rate control (kinetic). The reaction is under equilibrium control (thermodynamic). Unable to determine. Consider the reaction of 2-methyl-1, 3-cyclohexadiene with HCI. assuming that the reaction takes place at a very...
I just need the less stable forms Consider the reaction of 2-methyl-1,3-cyclohexadiene with HCl. Assuming that the reaction takes place at a very low temperature: draw the intermediate and product structures, including any formal charges.
thank you Consider the reaction of 2-methyl-1,3-cycIohexadiene with HCI. Assuming that the reaction takes place a a very low temperature: draw the intermediate and product structures, including any formal charges.
Also Draw Product A and B Consider the reaction of 2-methyl-1,3-cyclohexadiene with HCl Intermediate A Intermediate B НCІ (Less stable resonance form) (More stable resonance form) CIT CI Product B Product A Assuming that the reaction takes place at a very low temperature, draw the intermediate and product structures, including any formal charges. Draw intermediate A Draw intermediate B Rings Select Draw More Select Draw Rings More Erase Erase Cl C н C н
3. 1,2-dimethyl-1,3-cyclohexadiene reacts with HCl to form up to four different products. HCI 4 possible products a. b. Give the structures for the four products. When the reaction is run at low temperature, two products are formed preferentially ldentify these two products. c. When the reaction temperature is increased, a single product is favored. Identify the major product under these reaction conditions
Predict the major product formed by 1,4-addition of HCl to 2-methyl-1,3-cyclohexadiene You do not have to consider stereochemistry
Please show your work The reaction of 1,3-pentadiene with hydrogen chloride (HCI) gives the product shown below (as a racemate). However, the reaction with deuterium chloride (DCI) produces two products, A and B (also as racemates), and the ratio of these is temperature dependent. Which product, A or B is favored at low temperatures (0°C) and What happens to the ratio at higher temperatures (40°C)? Explain these in terms of kinetic vs thermodynamic control. (20 points d. How might you...
A student wanted to know whether the greater proximity of the nucleophile to the C-2 carbon in the transition state is what causes the 1,2-addition product to be formed faster when 1,3- butadiene reacts with HCl. Therefore, she decided to investigate the reaction of 2-methyl- 1,3-cyclohexadiene with HCl. Her friend told her that she should use 1-methyl-1,3-cyclohexadiene instead. Should she follow her friend’s advice?