In this problem, we will use material balance and chacepts (pages 761-762) to calculate the equilibrium concentrations in an extremely dilute solution of a strong acid, 1.0 × 10 − 7 MHCl ( aq ) . (a) Write down the material balance equation for 1.0 × 10 − 7 MHCl(aq), assuming that HCl ionizes completely in aqueous solution. (b) Write down the charge balance equation (an electroneutrality condition) for this solution. (c) Use the material balance and charge balance equations, and product for water, K z = [ H 2 O - ] [ OH - ] , to show that [ H 2 O - ] -c 2 [ H 2 O+ ] -K c = 0 , where c o = 1.0 × 10 − 7 M . (d) Use the quadratic formula to solve equation in (c) [ H 2 O − ] . (e) Calculate [ OH - ] and compare this value with [ Cl - ] . What conclusion can you draw from this comparison?
In this problem, we will use material balance and chacepts (pages 761-762) to calculate the equilibrium concentrations in an extremely dilute solution of a strong acid, 1.0 × 10 − 7 MHCl ( aq ) . (a) Write down the material balance equation for 1.0 × 10 − 7 MHCl(aq), assuming that HCl ionizes completely in aqueous solution. (b) Write down the charge balance equation (an electroneutrality condition) for this solution. (c) Use the material balance and charge balance equations, and product for water, K z = [ H 2 O - ] [ OH - ] , to show that [ H 2 O - ] -c 2 [ H 2 O+ ] -K c = 0 , where c o = 1.0 × 10 − 7 M . (d) Use the quadratic formula to solve equation in (c) [ H 2 O − ] . (e) Calculate [ OH - ] and compare this value with [ Cl - ] . What conclusion can you draw from this comparison?
Solution Summary: The author explains the material balance equation for given concentration of hydrochloric acid.
In this problem, we will use material balance and chacepts (pages 761-762) to calculate the equilibrium concentrations in an extremely dilute solution of a strong acid,
1.0
×
10
−
7
MHCl
(
aq
)
.
(a) Write down the material balance equation for
1.0
×
10
−
7
MHCl(aq), assuming that HCl ionizes completely in aqueous solution.
(b) Write down the charge balance equation (an electroneutrality condition) for this solution.
(c) Use the material balance and charge balance equations, and product for water,
K
z
=
[
H
2
O
-
]
[
OH
-
]
, to show that
[
H
2
O
-
]
-c
2
[
H
2
O+
]
-K
c
=
0
, where
c
o
=
1.0
×
10
−
7
M
.
(d) Use the quadratic formula to solve equation in (c)
[
H
2
O
−
]
.
(e) Calculate
[
OH
-
]
and compare this value with
[
Cl
-
]
. What conclusion can you draw from this comparison?
Q2: Draw the molecules based on the provided nomenclatures below:
(2R,3S)-2-chloro-3-methylpentane:
(2S, 2R)-2-hydroxyl-3,6-dimethylheptane:
Q3: Describes the relationship (identical, constitutional isomers, enantiomers or diastereomers)
of each pair of compounds below.
ག
H
CH3
OH
OH
CH3
H3C
OH
OH
OH
//////////
C
CH3
CH3
CH3
CH3
H3C
CH 3
C/III.....
Physics & Astronomy
www.physics.northweste
COOH
H
нош.....
H
2
OH
HO
CH3
HOOC
H
CH3
CH3
CH3
Br.
H
H
Br
and
H
H
H
H
Q1: For each molecule, assign each stereocenter as R or S. Circle the meso compounds. Label
each compound as chiral or achiral.
OH
HO
CI
Br
H
CI
CI
Br
CI
CI
Xf x f g
Br
D
OH
Br
Br
H₂N
R.
IN
Ill
I
-N
S
OMe
D
II
H
CO₂H
1/111
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