Separation Factor of two solutes A and B Solution

STEP 0: Pre-Calculation Summary
Formula Used
Separation Factor A and B = (Distribution Ratio of Solute A/Distribution Ratio of Solute B)
βsp = (DA/DB)
This formula uses 3 Variables
Variables Used
Separation Factor A and B - Separation Factor A and B is the term that describes the effectiveness of separation of two solutes.
Distribution Ratio of Solute A - The Distribution ratio of solute A is the ratio of the concentration of solute A in organic and aqueous phase solvent respectively.
Distribution Ratio of Solute B - The Distribution ratio of solute B is the ratio of the concentration of solute in the solvent of the organic and aqueous phase respectively.
STEP 1: Convert Input(s) to Base Unit
Distribution Ratio of Solute A: 52 --> No Conversion Required
Distribution Ratio of Solute B: 26 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
βsp = (DA/DB) --> (52/26)
Evaluating ... ...
βsp = 2
STEP 3: Convert Result to Output's Unit
2 --> No Conversion Required
FINAL ANSWER
2 <-- Separation Factor A and B
(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!

5 Distribution Ratio Calculators

Separation Factor of two solutes A and B
Go Separation Factor A and B = (Distribution Ratio of Solute A/Distribution Ratio of Solute B)
Distribution Ratio
Go Actual Distribution Ratio = (Concentration in Organic Phase/Concentration in Aqueous Phase)
Distribution Ratio of Solute A given Separation Factor
Go Distribution Ratio A = (Separation Factor*Distribution Ratio of Solute B)
Distribution Ratio of Solute B given Separation Factor
Go Distribution Ratio B = (Distribution Ratio of Solute A/Separation Factor)
F Distribution
Go F Distribution = (Variance One^2)/(Variance Two^2)

15 Distribution Ratio and Length of Column Calculators

Column Length given Number of Theoretical Plates and Width of Peak
Go Chromatographic Column Length given NP and WP = (Width of Peak N and L/4)*(sqrt(Number of Theoretical Plates))
Standard Deviation given Length of Column and Number of Theoretical Plates
Go Standard Deviation given L and N = Length of Column/(sqrt(Number of Theoretical Plates))
Column Length given Number of Theoretical Plates and Standard Deviation
Go Chromatographic Column Length = Standard Deviation*(sqrt(Number of Theoretical Plates))
Width of Peak given Number of Theoretical Plates and Length of Column
Go Width of Peak N and L = (4*Length of Column)/(sqrt(Number of Theoretical Plates))
Standard Deviation given Plate Height and Length of Column
Go Standard Deviation given H and L = sqrt(Plate Height*Length of Column)
Separation Factor of two solutes A and B
Go Separation Factor A and B = (Distribution Ratio of Solute A/Distribution Ratio of Solute B)
Distribution Ratio
Go Actual Distribution Ratio = (Concentration in Organic Phase/Concentration in Aqueous Phase)
Change in Retention Time given Half of Average Width of Peaks
Go Change in Retention Time given H = (Resolution*Half of Average Width of Peaks)/0.589
Change in Retention Volume given Resolution and Average Width of Peak
Go Change in retention volume given Rand W = (Resolution*Average Width of Peaks)
Change in Retention Time given Resolution and Average Width of Peak
Go Change in Retention Time given R and W = (Resolution*Average Width of Peaks)
Column Length given Number of Theoretical Plates
Go Chromatographic Column Length = (Number of Theoretical Plates*Plate Height)
Distribution Ratio of Solute A given Separation Factor
Go Distribution Ratio A = (Separation Factor*Distribution Ratio of Solute B)
Distribution Ratio of Solute B given Separation Factor
Go Distribution Ratio B = (Distribution Ratio of Solute A/Separation Factor)
Column Length given Standard Deviation and Plate Height
Go Chromatographic Column Length = ((Standard Deviation)^2)/Plate Height
Plate Height given Standard Deviation and Length of Column
Go Plate Height given SD = ((Standard Deviation)^2)/Length of Column

Separation Factor of two solutes A and B Formula

Separation Factor A and B = (Distribution Ratio of Solute A/Distribution Ratio of Solute B)
βsp = (DA/DB)

What is Nernst distribution law?

The law that determines the relative distribution of a component that is soluble in two liquids, these liquids being immiscible or miscible to a limited extent. This law is one of the laws applying to ideal dilute solutions. It was discovered by W. Nernst in 1890. The Nernst distribution law states that, at equilibrium, the ratio of the concentrations of a third component in two liquid phases is constant. The Nernst distribution law permits us to determine the most favorable conditions for the extraction of substances from solutions.

How to Calculate Separation Factor of two solutes A and B?

Separation Factor of two solutes A and B calculator uses Separation Factor A and B = (Distribution Ratio of Solute A/Distribution Ratio of Solute B) to calculate the Separation Factor A and B, The Separation factor of two solutes A and B formula is defined as the distribution ratio of solute A to that of solute B. Separation Factor A and B is denoted by βsp symbol.

How to calculate Separation Factor of two solutes A and B using this online calculator? To use this online calculator for Separation Factor of two solutes A and B, enter Distribution Ratio of Solute A (DA) & Distribution Ratio of Solute B (DB) and hit the calculate button. Here is how the Separation Factor of two solutes A and B calculation can be explained with given input values -> 2 = (52/26).

FAQ

What is Separation Factor of two solutes A and B?
The Separation factor of two solutes A and B formula is defined as the distribution ratio of solute A to that of solute B and is represented as βsp = (DA/DB) or Separation Factor A and B = (Distribution Ratio of Solute A/Distribution Ratio of Solute B). The Distribution ratio of solute A is the ratio of the concentration of solute A in organic and aqueous phase solvent respectively & The Distribution ratio of solute B is the ratio of the concentration of solute in the solvent of the organic and aqueous phase respectively.
How to calculate Separation Factor of two solutes A and B?
The Separation factor of two solutes A and B formula is defined as the distribution ratio of solute A to that of solute B is calculated using Separation Factor A and B = (Distribution Ratio of Solute A/Distribution Ratio of Solute B). To calculate Separation Factor of two solutes A and B, you need Distribution Ratio of Solute A (DA) & Distribution Ratio of Solute B (DB). With our tool, you need to enter the respective value for Distribution Ratio of Solute A & Distribution Ratio of Solute B 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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