The situation of equilibrium of the mixture of HA and HCl , major species in a mixture of weak acid HA and HCl , K a value calculation of each acid, order for strong base among given compounds. Concept introduction: Strong acids dissociate completely and rapidly in aqueous medium while weak acids dissociates slowly and up to a certain level only. A strong base is the one having the potential to accept a proton rapidly. To determine: The situation at equilibrium of the mixture of HA and HCl .
The situation of equilibrium of the mixture of HA and HCl , major species in a mixture of weak acid HA and HCl , K a value calculation of each acid, order for strong base among given compounds. Concept introduction: Strong acids dissociate completely and rapidly in aqueous medium while weak acids dissociates slowly and up to a certain level only. A strong base is the one having the potential to accept a proton rapidly. To determine: The situation at equilibrium of the mixture of HA and HCl .
Solution Summary: The author explains that strong acids dissociate completely and rapidly in aqueous medium while weak acid reactions are of reversible type.
Interpretation: The situation of equilibrium of the mixture of
HA and
HCl, major species in a mixture of weak acid HA and
HCl,
Ka value calculation of each acid, order for strong base among given compounds.
Concept introduction: Strong acids dissociate completely and rapidly in aqueous medium while weak acids dissociates slowly and up to a certain level only. A strong base is the one having the potential to accept a proton rapidly.
To determine: The situation at equilibrium of the mixture of
HAandHCl.
(b)
Interpretation Introduction
Interpretation: The situation of equilibrium of the mixture of
HA and
HCl, major species in a mixture of weak acid HA and
HCl,
Ka value calculation of each acid, order for strong base among given compounds.
Concept introduction: Strong acids dissociate completely and rapidly in aqueous medium while weak acids dissociates slowly and up to a certain level only. A strong base is the one having the potential to accept a proton rapidly.
To determine: the major species in a mixture of weak acid HA and
HCl
(c)
Interpretation Introduction
Interpretation: The situation of equilibrium of the mixture of
HA and
HCl, major species in a mixture of weak acid HA and
HCl,
Ka value calculation of each acid, order for strong base among given compounds.
Concept introduction: Strong acids dissociate completely and rapidly in aqueous medium while weak acids dissociates slowly and up to a certain level only. A strong base is the one having the potential to accept a proton rapidly.
To determine: The
Ka value calculation of
HCl and
HA.
(d)
Interpretation Introduction
Interpretation: The situation of equilibrium of the mixture of
HA and
HCl, major species in a mixture of weak acid HA and
HCl,
Ka value calculation of each acid, order for strong base among given compounds.
Concept introduction: Strong acids dissociate completely and rapidly in aqueous medium while weak acids dissociates slowly and up to a certain level only. A strong base is the one having the potential to accept a proton rapidly.
To determine: The order for strong base among given compounds.
Is nucleophilic acyl substitution an SN1 or SN2 reaction?
Draw product A, indicating what type of reaction occurs.
NH2
F3C
CF3
NH
OMe
NH2-NH2, ACOH
A
Photochemical smog is formed in part by the action of light on nitrogen dioxide. The wavelength of radiation absorbed by NO2 in this reaction is 197 nm.(a) Draw the Lewis structure of NO2 and sketch its π molecular orbitals.(b) When 1.56 mJ of energy is absorbed by 3.0 L of air at 20 °C and 0.91 atm, all the NO2 molecules in this sample dissociate by the reaction shown. Assume that each absorbed photon leads to the dissociation (into NO and O) of one NO2 molecule. What is the proportion, in parts per million, of NO2 molecules in this sample? Assume that the sample behaves ideally.
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Author:Steven D. Gammon, Ebbing, Darrell Ebbing, Steven D., Darrell; Gammon, Darrell Ebbing; Steven D. Gammon, Darrell D.; Gammon, Ebbing; Steven D. Gammon; Darrell
Author:Steven D. Gammon, Ebbing, Darrell Ebbing, Steven D., Darrell; Gammon, Darrell Ebbing; Steven D. Gammon, Darrell D.; Gammon, Ebbing; Steven D. Gammon; Darrell