Homework Answers
(i) trA' = (12.41 - 1.13) min = 11.28 min
(ii) 11.28/12.41 = 0.9089, kA = (1- 0.9089)/0.9089 = 0.10018
(iii) trA' = (13.34 - 1.13) min = 12.21 min
(iv) 12.21/13.34 = 0.9153, kA = (1- 0.9153)/0.9153 = 0.09255
Add Answer to:
Consider a separation performed on a 45.0 mm long open tubular column with a 0.50 mm...
Two compounds C and D are separated on a column 34 cm long . Given the...
Two compounds C and D are separated on a column 34 cm long . Given the chromatographic data below calculate The column resolution? , the number of theoretical plates ?the height of theoretical plate and what length of column would be required to give a resolution of 1.5? Compound C retention time 18.3 width at base of peak(min) = 2.18 Compound D retention time 17.7, width at base 1.23
A student researcher performed a chromatographic separation of caffeine and aspartame. The retention time for caffeine,...
A student researcher performed a chromatographic separation of caffeine and aspartame. The retention time for caffeine, is, was found to be 218.0 s with a baseline peak width, wc, of 14.4 s. The retention time for aspartame, 1., was 250.5 s with a baseline peak width, w of 21.1 s. The retention time for the unretained solvent methanol was 40.4 s. Calculate the average plate height, H, in micrometers for this separation, given that it was performed on a 27.7...
A student researcher performed a chromatographic separation of caffeine and aspartame. The retention time for caffeine,...
A student researcher performed a chromatographic separation of caffeine and aspartame. The retention time for caffeine, tc,was found to be 207.6 s with a baseline peak width, wc, of 16.2 s. The retention time for aspartame, ta, was 253.7 s with a baseline peak width, wa, of 18.7 s. The retention time for the unretained solvent methanol was 40.7 s. Calculate the average plate height, H, in micrometers for this separation, given that it was performed on a 27.3 cmlong...
A student researcher performed a chromatographic separation of caffeine and aspartame. The retent...
A student researcher performed a chromatographic separation of caffeine and aspartame. The retention time for caffeine, lc, was found to be 203.8 s with a baseline peak width, wc, of 13.8 s. The retention time for aspartame, ta, was 272.4 s with a baseline peak width, wa, of 21.5 s. The retention time for the unretained solvent methanol was 43.7 s Calculate the average plate height, H, in micrometers for this separation, given that it was performed on a 22.7...
1. Listed below are retention times and peak widths for an HPLC chromatographic separation on a...
1. Listed below are retention times and peak widths for an HPLC chromatographic separation on a 10 cm C18 column a) Calculate the resolution between benzene and benzo[e]pyrene. Compound Unretained Benzene Benzo[e]pyrene Pyrene Coronene Time (min) Baseline Width (min) 0.9 10.9 13.3 16.7 26.1 0.40 0.40 0.45 0.50 b) Is this a good resolution, yes, no, why? c) Calculate the theoretical number of plates for benzo[elpyrene.
Consider the data below for a liquid chromatography separation of four compounds, A, B, C, and...
Consider the data below for a liquid chromatography separation of four compounds, A, B, C, and D on a 45.0 cm column. Calculate the number of theoretical plates, N, for each peak. Retention Width at the Time (min) Base (min) 5.24 0.424 Number Number 12.8 1.08 NA = II 14.2 1.12 D 24.1 1.85 Number Number NB = 10 N= What is the average number of theoretical plates, Navg, for the column? Number Navy = avg What is the plate...
Q. A) An open tubular column is 30 m long and has an inner diameter of...
Q. A) An open tubular column is 30 m long and has an inner diameter of 0.500 mm. It is coated on the inside wall with a layer of stationary phase which is 30 um thick. Unretained solute passed through in 2.00 min whereas a particular solute has a retention time of 15.20 min. What is the volume flow rate in mL/min. B) Calculate the capacity factor for the solute. C) What was the fraction of time spent in the...
The table contains data for a liquid chromatography separation of four compounds, A, B, C, and...
The table contains data for a liquid chromatography separation of four compounds, A, B, C, and D, on a 40.0 cm column Retention Compound time (min) Width at the base (min) A 5.17 0.436 B 1.02 13.0 15.0 C 1.10 23.4 1.91 Calculate the number of theoretical plates, N, for each peak. NA NB Nc ND = What is the average number of theoretical plates, Navg, for Navg the column? What is the plate height, H, for the column? Н-...
2.0 EXAMPLEI : The following data were obtained for a separation using a 0.5 mm id,...
2.0 EXAMPLEI : The following data were obtained for a separation using a 0.5 mm id, 10 meter open tubular column: Retention time (min) Peak base width (min) Methane Cyclohexane 8.0 0.65 Methylcyclohexane 8.17 0.72 Toluene 10.2 0.95 a)Draw the chromatogram and label the peaks b) Calculate the number of theoriticla plate for each compound (N) and palte height (H) c) Calculate the capacity factor for each compound d) the resolution between tow consequent peak R, e) Calculate the length...
consider the peaks for trans-chlordane and for cis-chlordane where its retention time is 458.5 seconds and...
consider the peaks for trans-chlordane and for cis-chlordane where its retention time is 458.5 seconds and 475.0 seconds respectively. The elution time for unretained solute is 25 seconds. The width base for t-chlordane is 4 seconds and c-chlordane is 4.5 seconds. The open tubular column is 12.5m in length and 0.32 in diameter. Find the adjusted retention time, retention factor, number of theoretical plates and plate height for t-chlordane and c-chlordane peaks. in addition calculate the selectivity factor and resolution...
A student researcher performed a chromatographic separation of caffeine and aspartame. The retention time for caffeine, is, was found to be 218.0 s with a baseline peak width, wc, of 14.4 s. The retention time for aspartame, 1., was 250.5 s with a baseline peak width, w of 21.1 s. The retention time for the unretained solvent methanol was 40.4 s. Calculate the average plate height, H, in micrometers for this separation, given that it was performed on a 27.7...
A student researcher performed a chromatographic separation of caffeine and aspartame. The retention time for caffeine, lc, was found to be 203.8 s with a baseline peak width, wc, of 13.8 s. The retention time for aspartame, ta, was 272.4 s with a baseline peak width, wa, of 21.5 s. The retention time for the unretained solvent methanol was 43.7 s Calculate the average plate height, H, in micrometers for this separation, given that it was performed on a 22.7...
1. Listed below are retention times and peak widths for an HPLC chromatographic separation on a 10 cm C18 column a) Calculate the resolution between benzene and benzo[e]pyrene. Compound Unretained Benzene Benzo[e]pyrene Pyrene Coronene Time (min) Baseline Width (min) 0.9 10.9 13.3 16.7 26.1 0.40 0.40 0.45 0.50 b) Is this a good resolution, yes, no, why? c) Calculate the theoretical number of plates for benzo[elpyrene.
Consider the data below for a liquid chromatography separation of four compounds, A, B, C, and D on a 45.0 cm column. Calculate the number of theoretical plates, N, for each peak. Retention Width at the Time (min) Base (min) 5.24 0.424 Number Number 12.8 1.08 NA = II 14.2 1.12 D 24.1 1.85 Number Number NB = 10 N= What is the average number of theoretical plates, Navg, for the column? Number Navy = avg What is the plate...
The table contains data for a liquid chromatography separation of four compounds, A, B, C, and D, on a 40.0 cm column Retention Compound time (min) Width at the base (min) A 5.17 0.436 B 1.02 13.0 15.0 C 1.10 23.4 1.91 Calculate the number of theoretical plates, N, for each peak. NA NB Nc ND = What is the average number of theoretical plates, Navg, for Navg the column? What is the plate height, H, for the column? Н-...
2.0 EXAMPLEI : The following data were obtained for a separation using a 0.5 mm id, 10 meter open tubular column: Retention time (min) Peak base width (min) Methane Cyclohexane 8.0 0.65 Methylcyclohexane 8.17 0.72 Toluene 10.2 0.95 a)Draw the chromatogram and label the peaks b) Calculate the number of theoriticla plate for each compound (N) and palte height (H) c) Calculate the capacity factor for each compound d) the resolution between tow consequent peak R, e) Calculate the length...
Most questions answered within 3 hours.
-
Where is the error in this code sequence?
String s1 = "Hello";
String s2 = "ello";...
asked 10 months ago -
Financial data for Joel de Paris, Inc., for last year
follow:
Joel de Paris, Inc.
Balance...
asked 10 months ago -
Consider this reaction:
Al2(SO4)3 (aq)+ BaCl3
(aq) Al2Cl6 (aq)- +
3BaSO4(s) . What is the...
asked 10 months ago -
Suppose that Savneet is considering increasing her
recent random sample from 20 car rentals to 40...
asked 10 months ago -
Trucks arrive at an unloading terminal at an average rate of 120
per hour.
Trucks arrive...
asked 10 months ago -
Why are methanol and ethanol completely soluble in water while
octanol is not very little soluble....
asked 10 months ago -
A facilities manager at a university reads in a research report
that the mean amount of...
asked 10 months ago -
When the CuSO4 is rehydrated by adding water to the anhydrous
compound, is this an endothermic...
asked 10 months ago -
A ray of sunlight is passing from diamond into crown glass; the
angle of incidence is...
asked 10 months ago -
A block of mass 0.249 kg is placed on top of a light, vertical
spring of...
asked 10 months ago -
how do the kidneys compensate in the presences of acidosis
a) trigger hyperventilate
b) reserve acid...
asked 10 months ago -
Question 501 pts
The rental rate of capital to the firm increases. Which of the
following...
asked 10 months ago