Halogen Derivatives Questions and Answers

Match the correct reagent that will generate the products shown as the major product a b c d e Drag and drop options on the right hand side to reorder and match with items on the left Reordering may cause items on the right hand side to swap positions tBuOK tBuOH Nal H O MeOH NaCN acetone H O 1 1 NaOH H O H O HCN Nal acetone OH X
Organic Chemistry
Halogen Derivatives
Match the correct reagent that will generate the products shown as the major product a b c d e Drag and drop options on the right hand side to reorder and match with items on the left Reordering may cause items on the right hand side to swap positions tBuOK tBuOH Nal H O MeOH NaCN acetone H O 1 1 NaOH H O H O HCN Nal acetone OH X
reage reactions to proceed the most efficiently 1 2 3 4 Drag and drop options on the right hand side to reorder and match with items on the left Reordering may cause items on the right hand side to swap positions 2 3 Reactions Br Reagent C Reagent H Reagent E Reagent F Reagent G Reagent B Reagent D Reagent A OMe Tott wing OH
Organic Chemistry
Halogen Derivatives
reage reactions to proceed the most efficiently 1 2 3 4 Drag and drop options on the right hand side to reorder and match with items on the left Reordering may cause items on the right hand side to swap positions 2 3 Reactions Br Reagent C Reagent H Reagent E Reagent F Reagent G Reagent B Reagent D Reagent A OMe Tott wing OH
How many different E1 products could be formed in the given molecule Hint include E and Z isomers A 1 B 2 C 3 D 4 Br
Organic Chemistry
Halogen Derivatives
How many different E1 products could be formed in the given molecule Hint include E and Z isomers A 1 B 2 C 3 D 4 Br
Compound A can be converted into compound G when treated with H O Starting with compound A and ending with Compound G sort the intermediates in the correct order according to the reaction mechanism Note treat resonance structures as individual steps that lead to your product Drag and drop options into correct order and submit Compound A Compound B Compound G Compound F Compound D Compound C Compound E OH Br xxxx G OH
Organic Chemistry
Halogen Derivatives
Compound A can be converted into compound G when treated with H O Starting with compound A and ending with Compound G sort the intermediates in the correct order according to the reaction mechanism Note treat resonance structures as individual steps that lead to your product Drag and drop options into correct order and submit Compound A Compound B Compound G Compound F Compound D Compound C Compound E OH Br xxxx G OH
Write and name the main product s for each of the following reactions Are these reactions stereospecific Explain Are the reactions stereoselective Explain Br Br MeOH MeOH
Organic Chemistry
Halogen Derivatives
Write and name the main product s for each of the following reactions Are these reactions stereospecific Explain Are the reactions stereoselective Explain Br Br MeOH MeOH
OH O A OB OC CH3 OH H3C C C H OH A A C D A CI H B OH OH
Organic Chemistry
Halogen Derivatives
OH O A OB OC CH3 OH H3C C C H OH A A C D A CI H B OH OH
Provide the major organic product of the following reaction O A OB nc Br A OH Br Br B HBr xs C Br Br D Br
Organic Chemistry
Halogen Derivatives
Provide the major organic product of the following reaction O A OB nc Br A OH Br Br B HBr xs C Br Br D Br
The synthesis above can be performed with some combination of the reagents listed below Give the necessary reagents in the correct order as a string of letters without spaces or punctuation Be sure to consider stereochemistry and regiochemistry A HBr B Br2 CCl4 C Br light D NaCCH E HBr ROOR E NaNH2 G Na NH3 H CH3CH Br
Organic Chemistry
Halogen Derivatives
The synthesis above can be performed with some combination of the reagents listed below Give the necessary reagents in the correct order as a string of letters without spaces or punctuation Be sure to consider stereochemistry and regiochemistry A HBr B Br2 CCl4 C Br light D NaCCH E HBr ROOR E NaNH2 G Na NH3 H CH3CH Br
Which description explains this figure Br O Alkyl bromides can be converted into alkanes O Markovnikov addition of HBr is taking place O Anti Markovnikov addition of HBr is taking place O Bromination is expected to take place
Organic Chemistry
Halogen Derivatives
Which description explains this figure Br O Alkyl bromides can be converted into alkanes O Markovnikov addition of HBr is taking place O Anti Markovnikov addition of HBr is taking place O Bromination is expected to take place
OB OA Br H O O Br A m Br B
Organic Chemistry
Halogen Derivatives
OB OA Br H O O Br A m Br B
Provide the product resulting from the following reaction A Br B
Organic Chemistry
Halogen Derivatives
Provide the product resulting from the following reaction A Br B
Provide the starting materials for the following Williamson Ether Synthesis reaction Alkyl halide Di A B Alkoxide Br Br Na O toNa O Na
Organic Chemistry
Halogen Derivatives
Provide the starting materials for the following Williamson Ether Synthesis reaction Alkyl halide Di A B Alkoxide Br Br Na O toNa O Na
7 a Write a detailed mechanism using arrows to explain only two of the following 10 points d CI CH COONa NaOEt heat 8 8
Organic Chemistry
Halogen Derivatives
7 a Write a detailed mechanism using arrows to explain only two of the following 10 points d CI CH COONa NaOEt heat 8 8
6 Complete the following reaction scheme 60 points 4 points each i i H3CC CH 2 Br 1 BH3 2 H O2 NaOH Br
Organic Chemistry
Halogen Derivatives
6 Complete the following reaction scheme 60 points 4 points each i i H3CC CH 2 Br 1 BH3 2 H O2 NaOH Br
Predict the major product of the following elimination reaction CH7 OA B OC OD Br A 4 OH B C D
Organic Chemistry
Halogen Derivatives
Predict the major product of the following elimination reaction CH7 OA B OC OD Br A 4 OH B C D
Br g Cl g 2 BrCl g Kc 7 0 If the composition of the reaction mixture at 400 K is BrC1 0 00653 M Br 0 00176 M and Cl 0 000323 M what is the reaction quotient Q Q reaction at 400 K How is the reaction quotient related to the equilibrium constant Ke for this reaction OQ Kc O Q Kc OQ Kc
Organic Chemistry
Halogen Derivatives
Br g Cl g 2 BrCl g Kc 7 0 If the composition of the reaction mixture at 400 K is BrC1 0 00653 M Br 0 00176 M and Cl 0 000323 M what is the reaction quotient Q Q reaction at 400 K How is the reaction quotient related to the equilibrium constant Ke for this reaction OQ Kc O Q Kc OQ Kc