(a)
Interpretation:
To design a synthesis successfully, you must become very familiar with a variety of reactions. Therefore, take the time now to assess how familiar you are with the reactions we have learned so far, which appear in the reaction tables at the ends of Chapters 9–12. Go through the tables first to see if you can determine the typical reagents and reaction conditions for each reaction by examining just the reactants and products.
Concept introduction:
The reaction conditions are written after the reagent for each numbered step. The reaction conditions are typically separated from the reactant or reagent by either a comma or a slash.
(b)
Interpretation:
To design a synthesis successfully, you must become very familiar with a variety of reactions. Therefore, take the time now to assess how familiar you are with the reactions we have learned so far, which appear in the reaction tables at the ends of Chapters 9–12. Go through the reaction tables again to see if you can determine the reactants for each reaction by examining just the products and the typical reagents and reaction conditions.
Concept introduction:
The reaction conditions are written after the reagent for each numbered step. The reaction conditions are typically separated from the reactant or reagent by either a comma or a slash.
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Chapter 13 Solutions
Organic Chemistry: Principles and Mechanisms (Second Edition)
- OH SYNTHESIS 1. POCI3 2. HBr, ROOR 3. Mg, ether 4. benzaldehyde 5. H3O+ workup 6. PCC 7. CH3MgBr 8. H3O+ workup Br Tarrow_forwardChapter 16 End of Chapter, Out of Class As I promised, this is basically just some more synthesis practice. O₂N OH CN OH from Benzene from Benzene From Toluenearrow_forward4. Reactions For the reactions indicated provide either the products, reactants or starting materials KOTBU, EBUOH NaCN, DMSO .CI i) xs, Nal, Acetone ii) NaCN, DMSO NaOMe, MeOН DMSO Br2, CHCI3 i) 9-BBN i) NaOH, H2О2 NaOHarrow_forward
- In planning the synthesis of one compound from another, it's just as important to know what not to do as to know what to do. The following reactions all have serious drawbacks to them. Explain the potential problems of each. Just use 1-2 sentences for each. 1.03 2. Zn CHO CHOarrow_forward6. Complete the following reaction scheme (g) CH H3C. 1) 9-BBN CH 2) H-О, NaOH (h) H20, H,SO4. HØSO4 (i) 1) BH3 2) H2O,, NaOHarrow_forwardComplete the reactions aa CI CI НО OH НО. позвон досв НО. OH НО OH OH НО H₂N _OH _OH NH₂arrow_forward
- Predict the product of this organic reaction: OH [0] + H₂O Specifically, in the drawing area below draw the skeletal ("line") structure of P. If there isn't any P because this reaction won't happen, check the No reaction box under the drawing area. Note for advanced students: you can assume the reaction is run under mild conditions.arrow_forwardCan you help me number 8 part E? Which is the formula of this rule of reaction?arrow_forwardWhich of the following reactions is/are feasible? NaNH, NH3 H3C H₂C CI OH O I and IV only O I, III and IV O I and II only Olonly SOCI₂ H3C NH₂ H3C CI NaCl || OH IVarrow_forward
- 2) For the following reactions, with arrow pushing shown, please indicate whether the reaction/products/arrow pushing is possible (as drawn with curved arrows). If its not possible, briefly describe what the error is. H2N H4N NH4 + OH H3Narrow_forwardDraw the orgamic molecule(s) which is(are) formed in the following reaction. Do not include molecules like H,O or HCl. (You have 2 chances until the answer will be given; you have already tried 0 times) CH, H+ + H,O H,C CH, H,arrow_forwardpredict the outcome of the reaction. explain briefly. answer letter c onlyarrow_forward
