Total Concentration of Solute in Aqueous Phase Calculator

✖The Concentration in Organic Phase is the total concentration of solute dissolved in the solvent in the organic phase.ⓘ Concentration in Organic Phase [C_o]			+10% -10%
✖The Distribution Ratio is the concentration of a component in two different phases of solvent.ⓘ Distribution Ratio [D]			+10% -10%

✖Concentration in Aqueous Solvent is the total concentration of solute dissolved in the solvent present in the aqueous phase.ⓘ Total Concentration of Solute in Aqueous Phase [C_aqP]

⎘ Copy

👎

Formula

✖

Total Concentration of Solute in Aqueous Phase

Formula

`"C"_{"aqP"} = ("C"_{"o"}/"D")`

Example

`"83.33333mol/L"=("50mol/L"/"0.6")`

Calculator

LaTeX

Reset

👍

Download Method of Separation Technique Formula PDF

Total Concentration of Solute in Aqueous Phase Solution

STEP 0: Pre-Calculation Summary

Formula Used

Concentration in Aqueous Solvent = (Concentration in Organic Phase/Distribution Ratio)
C_aqP = (C_o/D)
This formula uses 3 Variables

Variables Used

Concentration in Aqueous Solvent - (Measured in Mole per Cubic Meter) - Concentration in Aqueous Solvent is the total concentration of solute dissolved in the solvent present in the aqueous phase.
Concentration in Organic Phase - (Measured in Mole per Cubic Meter) - The Concentration in Organic Phase is the total concentration of solute dissolved in the solvent in the organic phase.
Distribution Ratio - The Distribution Ratio is the concentration of a component in two different phases of solvent.

STEP 1: Convert Input(s) to Base Unit

Concentration in Organic Phase: 50 Mole per Liter --> 50000 Mole per Cubic Meter (Check conversion here)
Distribution Ratio: 0.6 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C_aqP = (C_o/D) --> (50000/0.6)

Evaluating ... ...

C_aqP = 83333.3333333333

STEP 3: Convert Result to Output's Unit

83333.3333333333 Mole per Cubic Meter -->83.3333333333333 Mole per Liter (Check conversion here)

FINAL ANSWER

83.3333333333333 ≈ 83.33333 Mole per Liter <-- Concentration in Aqueous Solvent

(Calculation completed in 00.004 seconds)

You are here -

Home » Chemistry » Analytical chemistry » Method of Separation Technique » Phase » Total Concentration of Solute in Aqueous Phase

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!

< 6 Phase Calculators

Molar Concentration of Third Component in Second Phase

Go Concentration of Solute in Phase2 = (Concentration of Solute in Solvent 1/Distribution Coefficient of Solution)

Molar Concentration of Third Component in First Phase

Go Concentration of Solute in Phase1 = (Distribution Coefficient of Solution*Solute Concentration in Solvent2)

Mobile Phase Travel Time through Column

Go Unretained Solute Travel Time through Column = (Retention Time-Adjusted Retention Time)

Total Concentration of Solute in Organic Phase

Go Concentration in Organic Solvent = (Distribution Ratio*Concentration in Aqueous Phase)

Total Concentration of Solute in Aqueous Phase

Go Concentration in Aqueous Solvent = (Concentration in Organic Phase/Distribution Ratio)

Mobile Phase Travel Time given Capacity Factor

Go Unretained Solute Travel Time given CP = (Retention Time)/(Capacity Factor+1)

< 13 Relative and Adjusted Retention and Phase Calculators

Molar Concentration of Third Component in Second Phase

Go Concentration of Solute in Phase2 = (Concentration of Solute in Solvent 1/Distribution Coefficient of Solution)

Molar Concentration of Third Component in First Phase

Go Concentration of Solute in Phase1 = (Distribution Coefficient of Solution*Solute Concentration in Solvent2)

Relative Retention given Adjusted Retention Times

Go Actual Relative Retention = (Adjusted Retention Time of Solute 2/Adjusted Retention Time of Solute 1)

Relative Retention given Partition Coefficient of Two Components

Go Actual Relative Retention = (Partition Coefficient of Solute 2/Partition Coefficient of Solute 1)

Adjusted Retention of Second Component given Relative Retention

Go Adjusted Retention Time of Comp 2 = (Relative Retention*Adjusted Retention Time of Solute 1)

Adjusted Retention of First Component given Relative Retention

Go Adjusted Retention Time of Comp 1 = (Adjusted Retention Time of Solute 2/Relative Retention)

Partition Coefficient of Solute 1 given Relative Retention

Go Partition Coefficient of Comp 1 = (Partition Coefficient of Solute 2/Relative Retention)

Partition Coefficient of Solute 2 given Relative Retention

Go Partition Coefficient of Comp 2 = (Relative Retention*Partition Coefficient of Solute 1)

Mobile Phase Travel Time through Column

Go Unretained Solute Travel Time through Column = (Retention Time-Adjusted Retention Time)

Total Concentration of Solute in Aqueous Phase

Go Concentration in Aqueous Solvent = (Concentration in Organic Phase/Distribution Ratio)

Total Concentration of Solute in Organic Phase

Go Concentration in Organic Solvent = (Distribution Ratio*Concentration in Aqueous Phase)

Relative Retention given Capacity Factor of Two Components

Go Actual Relative Retention = (Capacity Factor of Solute 2/Capacity Factor of Solute 1)

Mobile Phase Travel Time given Capacity Factor

Go Unretained Solute Travel Time given CP = (Retention Time)/(Capacity Factor+1)

Total Concentration of Solute in Aqueous Phase Formula

Concentration in Aqueous Solvent = (Concentration in Organic Phase/Distribution Ratio)
C_aqP = (C_o/D)

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 Total Concentration of Solute in Aqueous Phase?

Total Concentration of Solute in Aqueous Phase calculator uses Concentration in Aqueous Solvent = (Concentration in Organic Phase/Distribution Ratio) to calculate the Concentration in Aqueous Solvent, The Total concentration of solute in aqueous phase formula is defined as the ratio of the total concentration of solute dissolved in the solvent in the organic phase to the distribution ratio. Concentration in Aqueous Solvent is denoted by C_aqP symbol.

How to calculate Total Concentration of Solute in Aqueous Phase using this online calculator? To use this online calculator for Total Concentration of Solute in Aqueous Phase, enter Concentration in Organic Phase (C_o) & Distribution Ratio (D) and hit the calculate button. Here is how the Total Concentration of Solute in Aqueous Phase calculation can be explained with given input values -> 0.083333 = (50000/0.6).

FAQ

What is Total Concentration of Solute in Aqueous Phase?

The Total concentration of solute in aqueous phase formula is defined as the ratio of the total concentration of solute dissolved in the solvent in the organic phase to the distribution ratio and is represented as C_aqP = (C_o/D) or Concentration in Aqueous Solvent = (Concentration in Organic Phase/Distribution Ratio). The Concentration in Organic Phase is the total concentration of solute dissolved in the solvent in the organic phase & The Distribution Ratio is the concentration of a component in two different phases of solvent.

How to calculate Total Concentration of Solute in Aqueous Phase?

The Total concentration of solute in aqueous phase formula is defined as the ratio of the total concentration of solute dissolved in the solvent in the organic phase to the distribution ratio is calculated using Concentration in Aqueous Solvent = (Concentration in Organic Phase/Distribution Ratio). To calculate Total Concentration of Solute in Aqueous Phase, you need Concentration in Organic Phase (C_o) & Distribution Ratio (D). With our tool, you need to enter the respective value for Concentration in Organic Phase & Distribution Ratio and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

Home

FREE PDFs

🔍 Search