1) Draw the conjugate base of each acid by deprotonation of the most acidic proton (might not be shown).
2) Rank the following acids from weakest to strongest (1=weakest 6=strongest)
1) Draw the conjugate base of each acid by deprotonation of the most acidic proton (might not be shown). 2) Rank the fol...
Q.1. Draw the conjugate base or conjugate acid of the following species Conjugate Acid Conjugate Base a) OH Sb) ? CH3NH2 c) HO d) ? SO- Q.2. ) Circle the most acidic proton and cross out the least acidic protons among the shown hydrogen atoms in the following molecules. NO H NH2 O-H Η Η CH3 OH -SC-H Н" Q.3. Circle the most acidic compound and cross out the least acidic compound in each set. ou la olagla ОН OH...
2. Identify the most acidic proton in each molecule below. Explain your reasoning. A. в.о C. 3. Four phenolic acids are presented below (A-D). Predict the relative acidity (strongest to weakest acid) o
Rank the following organic acids from strongest(1) to weakest (5). Rank the following organic acids from strongest(1) to weakest (5) Он HO OH С. В. А. HO F OH HO Е. D. ON Strongest acid(1) . D II. E 2. 3. l.C IV. A 4. Weakest(5) V. B
Acidic Atmosphere The atmosphere of our planet contains a variety of acidic substances. Understanding the acid-base properties of these chemical compounds is of central importance to predict and control their interactions Atmospheric Acids: Consider the following molecular structures of acids formed in Earth's atmosphere: он Predict how each of these acids may interact with water. Make a drawing to represent how each of the acid molecules will interact with a water molecule. 1. Nitric Acid Carbonic Acid Sulfuric Acid HNO,...
Please explain which are acids and bases then explain order of most acidic to basic. Rank the following from strongest acid to strongest base OH', H2SO4, NH3, HSO4
Apprica 1. (a) For each of the Bronsted-Lowery acid base reactions below, draw the conjugate acid and conjugate base pairs most likely to form. (b) Circle the set of arrows that best describe the equilibrium for each reaction. (3pts for each correct conjugate pair, 1 pt for each correct set of arrows) equilibrium arrows conjugate base conjugate acid (0) -H + он conjugate base conjugate acid (II) NaH + conjugate base conjugate acid
Part II. Short Answer 1. Rank the following molecules from most acidic (1) to least acidic (6) (CF,) CHOH CHỊC°CH (CHỊ) COH CH,CH,OH CH3COOH CH,OH 2. Circle the strongest base. он > 8 3. Circle the molecule with the lowest expected boiling point. non o el 4. Rank the following from 1 (most acidic) to 4 (least acidic). phenol p-nitrophenol methylphenol tert-butanol TTT SL
2. For the following acid-base equilibrium H-BH + Acid Base Conjugate Base Conjugate Acid (a) Draw a curved arrow mechanism above to show the transfer of a proton from the starting acid "acetylene" to the starting base "n-butyllithium"(two curved arrows are necessary). (b) Draw the conjugate base of acetylene and the conjugate acid of n-butyllithium, indicating all counter ions and formal charges in the rectangles provided above. (c) Which side. Left or Right, of this equilibrium is favored thermodynamically? What...
6) Draw the conjugate acid of the compound shown below. Show how the conjugate acid is stabilized by delocalization/resonance. 7) Identify the most acidic proton in the molecule below. Use resonance structures to explain your answer. Н,с "Cн, нн
please rank them from Strongest to weakest and dise uss the acidic strengths with the following Compare acids 1) acetic acid 2) Benzoic acid 3) phenol 4) Cyclohexanol