A). 1-Heptene; B). 1-Propene ; C). 1-Butene ; D). CEN E). CH3NH2 ; F). -CO-H; G)....
7. An addition polymerization reaction of compound O may also occur when the reaction is catalyzed by acetic peroxide (CH,COOOH). Write the mechanism of the trimer. A). 1-Heptene; B). 1-Propene; C). 1-Butene ; D). BN E). CHÍNH: F). COH; G). CHỊCH,Br; H). NO, Dyr, intri in OH ";N HỌC-CH=CH, CH3 H3CH O). H3C MCI Man in het bin.com, on ne peut -0,0,5,8,00 OH
This compound is the product of: OH (CH3CH2)2 COCH2CH2CH3 A) B) C) D) the oxidation of a primary alcohol the reaction of a carboxylic acid and an alcohol the reaction of a carboxylic acid and ammonia the reaction of a ketone and an alcohol Arrange these compounds in order of decreasing melting point. l. (CH3)3CH,CH,CH,OH II. (CHJsCCOOH Ill. (CH3)2CHCOOK Arrange these compounds in order of decreasing solubility in water. I. (CH,)CH,HCHOII. (CH),CCOOH I. CH) CHCOOK
Show complete reaction conditions that are needed to prepare A, B, C, D, E, and F from compound X (6 pts): OH Show complete mechanisms for the following reactions from problem 1 above: X → B and X → C: Mechanism for reaction X → B (4 pts)
There are compounds D and compound E that react to form compound F in a one-to-one molar ratio. Write this reaction What would you expect the rate law to be if this reaction was elementary? The experimentally determined rate law is second order with respect to E and zeroth order with respect to D. Propose a two-step mechanism that would explain this. Identify the relative rates of each elementary step in your above mechanism (slow or fast). Draw an energy...
2.27 (b) (a) -H H CH3-C-CEN (e) (f) (d) 2.27 In the compounds shown below, the six-membered rings are called benzene rings. Such rings are commonly found in natural products, and we will learn more about the remarkable stability of these ring systems in Chapter 17. Because of resonance effects with the attached groups, one of the benzene rings shown is electron-rich and the other is electron-poor. Draw the significant resonance contribu- tors for each to determine which is which....
There are 10 letters - a, b, c, d, e, f, g, h, n, g. I have to arrange them in a way that "a" wouldn't be near "c" and also "a" wouldn't be near "g" How many possible combinations are possible? How to solve it mathematically?
1) Write the mechanism of chlorination reaction of the following compounds and draw the constitutional isomers a) Butane b) 2-methylbutane c) methylcyclobutane d) 2.2-dimethylbutane 2) An alternative reaction of ethane chlorination is shown below a) Why does not this reaction occur? b) Show a mechanism for this alternative reaction 3) Write the mechanism for the formation of carbon tetrachloride from methanelighthv. 1) Write the mechanism of chlorination reaction of the following compounds and draw the constitutional isomers a) Butane b)...
Let U ={a, b, c, d, e, f, g, h, i, j, k}. Let A={d, f, g, h, i, k}. Let B={a, d, f, g, h}. Let C={a, c, f. i, k} Determine (AUC) U ( AB). Choose the correct answer below and, if necessary, fill in the answer box in your choice. OA. (AUC) U(ANB)= } (Use a comma to separate answers as needed.) OB. (A'UC) U (ANB) is the empty set. LE This Question: 1 pt Let U={x|XEN...
9. For the compound below answer a b and c. a) b) c) (3 pts) is the molecule below an aromatic or anti-aromatic estem? (4 pts) How many electrons are in the aromatic anti aromatic bratem? (4 pts). Draw an arrow () to the lone pair electron(s) that are part of the aromatic (or anti-aromatic) system. 10. (18 pts-6 pts each) Fill in the major organic product(s) for the reactions below Br+FeBr ci + CH CH CH .. 3+ AICI:...
write these compounds in order of increasing boiling points 1 Write these compounds in order of increasing boiling points. Identify a mechanistic step which does not occur in the reaction between excess of methylmagnesium iodide and ethyl acetate. (A) сна-маl rof (B) :0: CH-Mg + HO OH 2 3 HO 1 (A) 1 <2<3 (C) 2<3<1 (B) 2<i <3 (D) 3<I<2 2. Which one is the most acidic compound. + CH3-Mg (A) OH (B) (D) (C) (D) OH non 3...