(a) Interpretation: The product of the reaction between ( CH 3 CH 2 ) 3 N: (Lewis base) and given Lewis acid is to be drawn. Concept introduction: A Lewis acid-base reaction takes place between an electron rich species and an electron deficient species. In such reactions, a Lewis base (electron rich species) donates electron pair to a Lewis acid (electron deficient species) and forms a new bond.
(a) Interpretation: The product of the reaction between ( CH 3 CH 2 ) 3 N: (Lewis base) and given Lewis acid is to be drawn. Concept introduction: A Lewis acid-base reaction takes place between an electron rich species and an electron deficient species. In such reactions, a Lewis base (electron rich species) donates electron pair to a Lewis acid (electron deficient species) and forms a new bond.
Solution Summary: The author explains that a Lewis acid-base reaction takes place between electron rich species and electron deficient species.
Interpretation: The product of the reaction between (CH3CH2)3N: (Lewis base) and given Lewis acid is to be drawn.
Concept introduction: A Lewis acid-base reaction takes place between an electron rich species and an electron deficient species. In such reactions, a Lewis base (electron rich species) donates electron pair to a Lewis acid (electron deficient species) and forms a new bond.
Interpretation Introduction
(b)
Interpretation: The product of reaction between (CH3CH2)3N: (Lewis base) and given Lewis acid is to be drawn.
Concept introduction: A Lewis acid-base reaction takes place between an electron rich species and an electron deficient species. In such reactions, a Lewis base (electron rich species) donates electron pair to a Lewis acid (electron deficient species) and forms a new bond.
Interpretation Introduction
(c)
Interpretation: The product of the reaction between (CH3CH2)3N: (Lewis base) and given Lewis acid is to be drawn.
Concept introduction: A Lewis acid-base reaction takes place between an electron rich species and an electron deficient species. In such reactions, a Lewis base (electron rich species) donates electron pair to a Lewis acid (electron deficient species) and forms a new bond.
1A.
.Which of these are properties of acids?
They are sour in taste.
They turn red litmus paper blue.
They dissolve many metals.
Theyfeelslippery.A. I only. B. III only C. I and II. D. I and III. E. II, III, and IV
1B.
Which of these is/are isomers of butane?
A. propane
B. propaneC. 2-metylpropane D. 2-methylbutane E. pentane
1c.
Which is the oxidizing agent in, 2CO + 2NO → 2CO2 + N2?
CO
NO
CO2
N2
CO and NO
1d.
Which is the reducing agent in, Cu (s) + 2Ag+ (aq) → Cu2+ (aq) + 2Ag (s)?
Cu2+
Ag
Cu
Ag+
H2O, since the reaction occurs
Because amines are basic, they can often accept a proton. Draw the protonated structure of n-propylamine.
Draw structures sudan orange with HCL/ water / NAOH.
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