Retention Time given Capacity Factor Solution

STEP 0: Pre-Calculation Summary
Formula Used
Retention Time given CF = Unretained Solute Travel Time*(Capacity Factor for Analytical+1)
Tcf = tm*(kc+1)
This formula uses 3 Variables
Variables Used
Retention Time given CF - (Measured in Second) - Retention Time given CF is defined as the time taken by the solute to move over the stationary phase and to come out of the column.
Unretained Solute Travel Time - (Measured in Second) - The Unretained Solute Travel Time is the time taken by the mobile phase to move over the length of the column.
Capacity Factor for Analytical - The Capacity factor for Analytical is directly proportional to the retention factor. The longer a component is retained by the column, the greater is the capacity factor.
STEP 1: Convert Input(s) to Base Unit
Unretained Solute Travel Time: 4.8 Second --> 4.8 Second No Conversion Required
Capacity Factor for Analytical: 3.5 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Tcf = tm*(kc+1) --> 4.8*(3.5+1)
Evaluating ... ...
Tcf = 21.6
STEP 3: Convert Result to Output's Unit
21.6 Second --> No Conversion Required
FINAL ANSWER
21.6 Second <-- Retention Time given CF
(Calculation completed in 00.004 seconds)

Credits

Created by Prashant Singh
K J Somaiya College of science (K J Somaiya), Mumbai
Prashant Singh has created this Calculator and 700+ more calculators!
Verified by Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
Akshada Kulkarni has verified this Calculator and 900+ more calculators!

10+ Retention Time Calculators

Retention Time given Number of Theoretical Plate and Half Width of Peak
Go Retention Time given NP and HP = (Half of Average Width of Peaks)*(sqrt(Number of Theoretical Plates/5.55))
Half Width of Peak given Number of Theoretical Plates and Retention Time
Go Half of Average Width of Peaks = (sqrt(5.55/Number of Theoretical Plates))*(Retention Time)
Retention Time given Number of Theoretical Plates and Standard Deviation
Go Retention Time given NP and SD = (Standard Deviation)*(sqrt(Number of Theoretical Plates))
Retention Time given Number of Theoretical Plates and Width of Peak
Go Retention Time given NP and WP = (Width of Peak/4)*(sqrt(Number of Theoretical Plates))
Width of Peak given Number of Theoretical Plates and Retention Time
Go Width of Peak NP and RT = (4*Retention Time)/(sqrt(Count of Theoretical Plates))
Retention Time given Capacity Factor
Go Retention Time given CF = Unretained Solute Travel Time*(Capacity Factor for Analytical+1)
Retention Time given Adjusted Retention Time
Go Retention Time given ART = (Adjusted Retention Time+Unretained Solute Travel Time)
Adjusted Retention Time given Retention Time
Go Adjusted Retention Time given RT = (Retention Time-Unretained Solute Travel Time)
Average Width of Peak given Resolution and Change in Retention Time
Go Average Width of Peaks given RT = (Change in Retention Time/Resolution)
Retention Time given Retention Volume
Go Retention Time given RV = (Retention Volume/Flow Rate of Mobile Phase)

10+ Important Formulae on Retention and Deviation Calculators

Radius of First Column according to Scaling Equation
Go 1st Column Radius = (sqrt(Mass of 1st analyte/Mass of 2nd analyte))*Radius of 2nd column
Standard Deviation given Retention Time and Number of Theoretical Plates
Go Standard Deviation given RT and NP = (Retention Time)/(sqrt(Count of Theoretical Plates))
Mass of Second Analyte according to Scaling Equation
Go Mass of Analyte 2 = ((Radius of 2nd column/Radius of 1st column)^2)*Mass of 1st analyte
Width of Peak given Number of Theoretical Plates and Retention Time
Go Width of Peak NP and RT = (4*Retention Time)/(sqrt(Count of Theoretical Plates))
Retention Time given Capacity Factor
Go Retention Time given CF = Unretained Solute Travel Time*(Capacity Factor for Analytical+1)
Adjusted Retention Time given Retention Time
Go Adjusted Retention Time given RT = (Retention Time-Unretained Solute Travel Time)
Average Width of Peak given Resolution and Change in Retention Volume
Go Average Width of Peaks given RV = (Change in retention volume/Resolution)
Average Width of Peak given Resolution and Change in Retention Time
Go Average Width of Peaks given RT = (Change in Retention Time/Resolution)
Time for Diffusion given Standard Deviation
Go Diffusion Time = ((Standard Deviation)^2)/(2*Diffusion Coefficient)
Retention Factor
Go Actual Retention Factor = Solute Distance/Solvent Distance

Retention Time given Capacity Factor Formula

Retention Time given CF = Unretained Solute Travel Time*(Capacity Factor for Analytical+1)
Tcf = tm*(kc+1)

What is Chromatography?

A separation process based on the various partitioning coefficients of different solutes between the two phases.
Involving the interaction of solute(s) and two phases
Mobile phase: A gas or liquid that moves through the column.
Stationary phase: A solid or liquid that remains in place.

What are the types of Chromatography?

1) Adsorption chromatography
2) Ion-exchange chromatography
3) Partition chromatography
4) Molecular Size exclusion chromatography
5) Affinity chromatography

How to Calculate Retention Time given Capacity Factor?

Retention Time given Capacity Factor calculator uses Retention Time given CF = Unretained Solute Travel Time*(Capacity Factor for Analytical+1) to calculate the Retention Time given CF, The Retention Time given Capacity Factor formula is defined as the product of unretained mobile phase travels through the column in the minimum possible time to the capacity factor with the addition of one. Retention Time given CF is denoted by Tcf symbol.

How to calculate Retention Time given Capacity Factor using this online calculator? To use this online calculator for Retention Time given Capacity Factor, enter Unretained Solute Travel Time (tm) & Capacity Factor for Analytical (kc) and hit the calculate button. Here is how the Retention Time given Capacity Factor calculation can be explained with given input values -> 21.6 = 4.8*(3.5+1).

FAQ

What is Retention Time given Capacity Factor?
The Retention Time given Capacity Factor formula is defined as the product of unretained mobile phase travels through the column in the minimum possible time to the capacity factor with the addition of one and is represented as Tcf = tm*(kc+1) or Retention Time given CF = Unretained Solute Travel Time*(Capacity Factor for Analytical+1). The Unretained Solute Travel Time is the time taken by the mobile phase to move over the length of the column & The Capacity factor for Analytical is directly proportional to the retention factor. The longer a component is retained by the column, the greater is the capacity factor.
How to calculate Retention Time given Capacity Factor?
The Retention Time given Capacity Factor formula is defined as the product of unretained mobile phase travels through the column in the minimum possible time to the capacity factor with the addition of one is calculated using Retention Time given CF = Unretained Solute Travel Time*(Capacity Factor for Analytical+1). To calculate Retention Time given Capacity Factor, you need Unretained Solute Travel Time (tm) & Capacity Factor for Analytical (kc). With our tool, you need to enter the respective value for Unretained Solute Travel Time & Capacity Factor for Analytical and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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