On ozonolysis without undergoing into detail mechanism we can predict the product by breaking the carbon-carbon double bond and attaching each carbon with Carbon oxygen double bond.Here is the use of that short cut trick
please show all work for question 10 Question 10 (1.5 pts] How many molecules arise when...
Please help with reviewing this question. More steps the better. Que'stion 4 [1.5 pts] How many molecules of acetone (structure shown below) are created when a single molecule of compound C is treated first with excess O3 in CH2CI2 followed by excess Zn and acetic acid? CH3 CH3 Acetone Compound C
Question 3 (1.5 pts) To which carbon atom will an OCH group be bonded in the major organic products of Reaction #3? Reaction #3 Page 1 of 4 Question 4 (1.5 pts) How many molecules of acetone (structure shown below) are created when a single molecule of compound C is treated first with excess o, in CH2Cl2 followed by excess Zn and acetic acid? CH, O CH Compound C Acetone
Question 3 [1.5 pts] To which carbon atom will an OCH3 group be bonded in the major organic products of Reaction #3? Reaction #3 6 10 9 3 1 CH-он, Н-SO, 11 7 4 5 13 12 Page 1 of 4 Question 4 [1.5 pts] How many molecules of acetone (structure shown below) are created when a single molecule of compound C is treated first with excess O3 in CH2CI2 followed by excess Zn and acetic acid? C CH3 CH3...
Question 7 10 pts How many tightly bound molecules could a single ray of frequency 2.23 x 1020 Hz break apart? The binding energy of such a molecule is 10 eV. Your answer should be a number with two decimal places in the form: Nx 105, indicate only N.
Question 7 10 pts How many tightly bound molecules could a single ray of frequency 2.47 x 1020 Hz break apart? The binding energy of such a molecule is 10 eV. Your answer should be a number with two decimal places in the form: Nx 105, indicate only N.
please show all work for question two Question 2 [1.5 pts] Which one of the following statements about Reaction #2 is correct? Reaction #2 A CH2CI2 Br2 excess KCI aThe major organic products have a bromine atom bonded to atom A and a chlorine atom bonded to atom B a The major organic products have a bromine atom bonded to atom B and a chlorine atom bonded to atom A None of the above
show all work please thank you!! 9. (4 pts) Trifluoroacetic acid (CF3CO2H; pk, = 0.23) and acetic acid (CH3CO2H; pka = 4.75) are monoprotic acids (meaning they can dissociate only one H+ ion/molecule of acid). Using your knowledge of structure, explain why the acid dissociation (Ka) of acetic acid is greater than that for trifluoroacetic acid. Place your answer in the space provided. indisht n.....
show all work please thank you!!! 8. (4 pts. total; 2 pts. each) In the space provided below, explain the following atomic properties. Be succinct. Electronegativity (X^) Polarizability 9. (4 pts) Trifluoroacetic acid (CF3CO2H: pK = 0.23) and acetic acid (CH3CO2H; pk= 4.75) are monoprotic acids (meaning they can dissociate only one H ion/molecule of acid). Using your knowledge of structure, explain why the acid dissociation (Ka) of acetic acid is greater than that for trifluoroacetic acid. Place your answer...
please show all work for question 3 Question 3 [1.5 pts] To which carbon atom will an OCH3 group be bonded in the major organic products of Reaction #3? Reaction #3 2 6 8 10 CH3OH, H2SO4 13 12
please show all work for question 7 Question 7 (1.5 pts] Which one of the following statements about Reaction #6 is correct? Reaction #6 DACI: Nan, CH,Ch The major organic product arises from front face attack by the N3 anion at atom D The major organic product arises from front face attack by the N, anion at atom E The major organic product arises from back face attack by the N, anion at atom D The major organic product arises...