(a)
Interpretation:
In order to obtain desired resolution of 1.5, the number of plates should be calculated.
Concept introduction:
The resolution can be calculated as follows:
(b)
Interpretation:
Height of the column should be calculated.
Concept introduction:
The plate height can be calculated as follows:
(c)
Interpretation:
Retention time of the methylcyclohexene should be calculated.
Concept introduction:
Retention time is directly proportional to the resolution. Therefore, following equation can be used.
Trending nowThis is a popular solution!
Chapter 26 Solutions
INSTRUMENTAL ANALYSIS-ACCESS >CUSTOM<
- SPECTROPHOTOMETRY 1.) Slope of regression line or Molar absorptivity (µM -1cm-1) is 0.0253 and absorbance of unknown solution is 0.131. What is the concentration of the unknown solution (µM )?arrow_forwardA peak with a retention time of 10 minutes has a width at half-height of 7.6 s neighboring peak is eluted 15 s later with W½ = 7.5 s. (4) Find out the resolution for these two components. (a) (b) Is this resolution value good for quantitative analysis, why? (c) What difference in retention times is required for an adequate resolution of 1.5?arrow_forward1) Study the chromatograph (below) of a mixture of Compounds A and B, run on the GCs in the teaching labs at CU Boulder. Compound A has the shorter retention time. STAAT 61 1.11 227 RT TYPE AREA XXXX XXXX XXXX AREAS 0.009 55874 44.117 ARIHT 0.61 XX XX XX 1.11 2.27 XX XX XX TOTAL AREA=XX MUL FACTOR=XX 1. What is the retention time of compound A? Compound B? 2. Which compound is present in a larger amount? 3. Which compound has the lower boiling point? 4. What would happen to the retention times of compounds A and B if the column temperature were raised? 5. You suspect that compound B is octane. What can you do to provide supporting evidence for this hypothesis?arrow_forward
- In molecular exclusion (size exclusion) chromatography, the molecules have the longest retention times. a) the larger molecules b) the smaller moleculesarrow_forwardWhen would you use flame ionisation detectors in chromatographic analysis? (a) analysis of hydrocarbons at trace levels (b) Analysis of organic and inorganic compounds at normal concentration levels (c) Analysis of samples that you want to preserve (d) Analysis of hydrocarbons at trace levels and analysis of samples that do not need to be preserved (e) None of the other answers Pick one and why...arrow_forward2-pentanone has a retention index of 987 on a poly(ethylene glycol) column (also called Carbowax). (a) Between which two straight-chain hydrocarbons is 2-pentanone eluted? (b) An unretained solute is eluted from a certain column in 1.80 min. Decane (C10H22) is eluted in 15.63 min and undecane (C11H24) is eluted in 17.22 min. What is the retention time of a compound whose retention index is 1 050?arrow_forward
- 6arrow_forwardIn a HPLC separation of two compounds, A and B, the retention times observed are 3.5 min. for A and 4.5 min. for B on a 15 cm column. The retention time for the mobile phase is 1.0 min. The peak widths (at the base) for A and B are 0.5 and 0.7 min respectively. Calculate the following: (i) The capacity factor of A and B. (ii) The peak resolution. (iii) The average number of theoretical plates in the columnarrow_forward(ii) What is the unadjusted relative retention for components A and B?arrow_forward
- (b) For column 1(i) What are the unadjusted retention times for components A and B?arrow_forwardSubstances A and B have retention times of 16.40 and 17.63 min, respectively,on a 30.0-cm column. An unretained species passes through the column in 1.30 min. The peakwidths (at base) for A and B are 1.11 and 1.21 min, respectively. Calculate(a) the column resolution,(b) the average number of plates in the column,(c) the plate height,(d) the length of column required to achieve a resolution of 1.5.arrow_forwardSubstance A and B were found to have retention times of 16.40 and 17.63 min. respectively, on a 30cm HPLC column. An unretained species passed through the column in 1.30 min. The peak widths at base for A and B were 1.11 and 1.21 min, respectively. Calculate the a.) Column resolution b.) the average nbumber of plates in the column and the plate height.arrow_forward
- Principles of Instrumental AnalysisChemistryISBN:9781305577213Author:Douglas A. Skoog, F. James Holler, Stanley R. CrouchPublisher:Cengage LearningEBK A SMALL SCALE APPROACH TO ORGANIC LChemistryISBN:9781305446021Author:LampmanPublisher:CENGAGE LEARNING - CONSIGNMENT