Organic ChemistryMain MenuLecture 1: Introduction to Molecular OrbitalsLecture 10: Intermolecular Forces and Intro to ReactivityLecture 11: Alkenes as Nucleophiles ILectures 12 and 13: Alkenes II & IIILecture 14: Benzenes as Nucleophiles ILecture 15 objectives and skillsLecture 2: Molecular Orbitals in Organic StructuresLecture 3: Molecular Orbitals and ResonanceLecture 4: Molecular Orbitals and AromaticityLecture 5: Nomenclature and IR SpectroscopyLecture 6: Stereochemistry ILecture 7: Stereochemistry IILecture 8: Newman and Fisher ProjectionsLecture 9: Conformations and Cyclohexane RingsJulio Terra2fb22914f73f9e5a767bf7fb83987dca0e153e4a
SOLUTION E10.3a
12020-03-01T15:39:06-08:00Julio Terra2fb22914f73f9e5a767bf7fb83987dca0e153e4a359921plain2020-03-01T15:39:06-08:00Julio Terra2fb22914f73f9e5a767bf7fb83987dca0e153e4aConjugate acid/base for each pair (acid will have the extra proton):
Identify the conjugate acid and conjugate base in each of the following pairs of compounds. Draw the Lewis structures of each species and add necessary formal charges. SOLUTION
(CH3)2CHNH2 and [(CH3)2CHNH]-
CH3CO2H and [CH3CO2]-
[CH3]- and CH4
Identify each of the following as Lewis acid or Lewis base: (CH3)3COH, NH3, [CH2COCH3]-, and H2O. SOLUTION
Rank the following from least acidic to most acidic. SOLUTION
