Chemical Principles
8th Edition
ISBN: 9781337247269
Author: Steven S. Zumdahl; Donald J. DeCoste
Publisher: Cengage Learning US
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Chapter 11, Problem 24E
(a)
Interpretation Introduction
Interpretation:The potential of the galvanic cell containing a saturated calomel electrode and the given half-cell components at standard condition need to be determined.
Concept Introduction:Standard calomel electrode is a reference electrode. Reference electrode has a standard electrode potential. Reference electrode is often used in an
(b)
Interpretation Introduction
Interpretation: The potential of the galvanic cell containing a saturated calomel electrode and the given half-cell components at standard condition need to be determined.
Concept Introduction:A chemical cell converts the chemical energy into the potential energy. Here, certain
A Galvanic cell converts chemical energy to electrical energy. It provides
(c)
Interpretation Introduction
Interpretation: The potential of the galvanic cell containing a saturated calomel electrode and the given half-cell components at standard condition need to be determined.
Concept Introduction:Cell potential is the difference in potential between its cathode and anode.
The overall cell potential can be calculated by using the equation,
(d)
Interpretation Introduction
Interpretation: The potential of the galvanic cell containing a saturated calomel electrode and the given half-cell components at standard condition need to be determined.
Concept Introduction:Cell potential I is defined as the electrical work that can be obtained from the electrochemical cell given by the
Process is spontaneous if
Process is non-spontaneous if
(e)
Interpretation Introduction
Interpretation: The potential of the galvanic cell containing a saturated calomel electrode and the given half-cell components at standard condition need to be determined.
Concept Introduction:The overall cell potential can be calculated by using the equation,
In order for an electrochemical cell to operate simultaneously, the cell potential must be a positive value.
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(a
4 shows scanning electron microscope (SEM) images of extruded
actions of packing bed for two capillary columns of different diameters,
al 750 (bottom image) and b) 30-μm-i.d. Both columns are packed with the
same stationary phase, spherical particles with 1-um diameter.
A) When the columns were prepared, the figure shows that the column with
the larger diameter has more packing irregularities. Explain this observation.
B) Predict what affect this should have on band broadening and discuss your
prediction using the van Deemter terms.
C) Does this figure support your explanations in application question 33?
Explain why or why not and make any changes in your answers in light of
this figure.
Figure 4 SEM images of
sections of packed columns
for a) 750 and b) 30-um-i.d.
capillary columns.³
fcrip
= ↓ bandwidth Il temp
32. What impact (increase, decrease, or no change) does each of the following conditions have on the individual
components of the van Deemter equation and consequently, band broadening?
Increase temperature
Longer column
Using a gas mobile phase
instead of liquid
Smaller particle stationary phase
Multiple Paths
Diffusion
Mass Transfer
34. Figure 3 shows Van Deemter plots for a solute molecule using different column inner diameters (i.d.).
A) Predict whether decreasing the column inner diameters increase or decrease bandwidth.
B) Predict which van Deemter equation coefficient (A, B, or C) has the greatest effect on increasing or
decreasing bandwidth as a function of i.d. and justify your answer.
Figure 3 Van Deemter plots for hydroquinone using different column inner diameters (i.d. in μm). The data was
obtained from liquid chromatography experiments using fused-silica capillary columns packed with 1.0-μm particles.
35
20
H(um)
큰 20
15
90
0+
1500
100
75
550
01
02
594
05
μ(cm/sec)
30
15
10
Chapter 11 Solutions
Chemical Principles
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