3 and 5 are acid base reaction according to bronsted lowry theory
The Bronsted and Lowry concept of Acid-Base is based on the proton accepting and donor capability of species.
So, according to this concept, Acids are those which donate proton to another species or in solution and Bases are those accepting protons from another species or solution.
2. Which of the following are acid-base reactions according to the Bronsted-Lowry theory? Bry + FeBr...
According to the Bronsted-Lowry theory, which of the following is not a conjugate acid-base pair? A) H3O+ / OH- B) CH3OH2+ / CH3OH C) HI / I- D) H2 / H-
1) In the reaction of Cl2 with ethane and UV light, which of the following reactions would be a chain termination event(s)? 1) Cl. + CH3-CH3 CH3-CH2-CI+H. II) CI+ CH3-CH3 CH3-H2C + HCI III) Cl. + CH3-H2C: CH3-CH2-CI IV)Cl2 + CH3-H2C CH3-CH2-CI+ CI: V) Cl2 + UV light - CI+CI- A) reaction V B) reactions I and IV C) reactions III and IV D) reactions I and II E) reaction III 2) Given the chlorination of acetone shown below.choose the...
1) In the reaction of Cl2 with ethane and UV light, which of the following reactions would be a chain termination event(s)? 1) CI: + CH3-CH3 - CH3-CH2-CI+H II) CI+ CH3-CH3 CH3-H2C + HCI III) Cl. + CH3-H2C-CH3-CH2-CI IV) Cl2 + CH3-H2C - CH3-CH2-CI+CI- V) Cl2 + UV light -CI+CI: A) reaction V B) reactions I and IV C) reactions III and IV D) reactions I and II E) reaction III 2) Given the chlorination of acetone shown below, choose...
Which of the reactions will yield the indicated compound as the major product? Check all that apply. CI (i) CI ♡ CI 1. HNO3, H2SO4 2. HN(CH3)2 NO2 CI (ii) 1. HNO3, H2SO4 2. HN(CH3)2 NO2 CI CI (iii) OCH3 OCH3 1. HNO3, H2SO4 2. HN(CH3)2 O2N CI (iv) OCH3 1. NaN(CH3)2, HN(CH3)2 OCHZ 2. Br2 Br H2C H2C CI (v) H3C AICI: H3C CH3 CH3 (vi) H2N 1) HNO3, H2SO4 HN 2) NaOH, H2O NO2
7 (2 pts). Which of the following reactions will proceed well to give the indicated compounds as the major products? Check all that apply. (0) So 1. HNO3, H,SO 2. HN(CH3)2 NO2 N (ii) 1. HNO3, H2SO4 2. HN (CH3)2 NO2 ci CI N (iii) OCH OCH, 1. HNO3, H,SO 2. HN(CH3)2 ON `N (iv) Осн. Осно 1. NaN(CH3)2, HN(CH3)2 2. Brz Br нас. нас (v) H2C AICI HC CH3 CH3 vi) HN HN 1) HNO3 H2SO4 2) NaOH, H2O...
7 (2 pts). Which of the following reactions will proceed well to give the indicated compounds as the major products? Check all that apply. (0) So 1. HNO3, H,SO 2. HN(CH3)2 NO2 N (ii) 1. HNO3, H2SO4 2. HN (CH3)2 NO2 ci CI N (iii) OCH OCH, 1. HNO3, H,SO 2. HN(CH3)2 ON `N (iv) Осн. Осно 1. NaN(CH3)2, HN(CH3)2 2. Brz Br нас. нас (v) H2C AICI HC CH3 CH3 vi) HN HN 1) HNO3 H2SO4 2) NaOH, H2O...
please help in all sections!! Provide the reagents necessary to carry out the following conversion. Choose the correct reagents for step 1. AICI AICI CI CH3CI/ AICI3 CH3CI/ FeCl Choose the correct reagents for step 2 Zn(Hg), HCI A Zn(Hg), H2SO Zn, HCI A Mg(Hg), HCI A Predict the major product for the following reaction. B Feble 11 11 IV V E2 > Identify the electrophile in the bromination of benzene. Br Br2 Br-Br-Fe-Br Br FeBr2 FeBr3 Br 11 11...
Question 41 (2 points) Which of the following carbocations is (are) likely to undergo rearrangement through a methyl shift? H2C CH3 H3C CH3 H3C CH3 III a) both II and III Ob) both I and II Oc) Od) Question 42 (2 points) For the reaction shown, select the expected major organic product. 1. 1 eq HCI 2. 1 eq HBr Br. CI -Br -CI Ha CI Br + enantiomer + enantiomer + enantiomer CI Br + enantiomer IV 11 III...
Which solvent(s) listed below would be satisfactory in Snl reactions? 0 o Н;С CH; DMSO H3C Н;С CH3CH2OH H DMF I II III a. I only b. II only c. III only d. I and II Oe. I and III f. II and III Og. All of the above What two products are expected in the following reaction? CH3 HBT H H BI CH CH; CH BI H Br I II III H Br Br H CH; CH IV V...
Which of the following compounds can probably be prepared in good yield (as major product) from benzene using two successive electrophilic substitution reactions? Check all that apply. Br CH3 NO2 CI SO3H NO2 i ii iii iv V ji iv