Total Concentration Calculator

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Molar Diffusion

Basics of HMT

Conduction

Convection

Convective Mass Transfer

✖Concentration of A is the molar concentration of reactant substance A at any stage during the progress of the reaction.ⓘ Concentration of A [C_A]			+10% -10%
✖Concentration of B is the molar concentration of reactant substance B at any stage during the progress of the reaction.ⓘ Concentration of B [C_B]			+10% -10%

✖Total Concentration is the sum of concentration of all the components in a mixture.ⓘ Total Concentration [C]

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Formula

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Total Concentration

Formula

`"C" = "C"_{"A"}+"C"_{"B"}`

Example

`"26mol/L"="12mol/L"+"14mol/L"`

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Total Concentration Solution

STEP 0: Pre-Calculation Summary

Formula Used

Total Concentration = Concentration of A+Concentration of B
C = C_A+C_B
This formula uses 3 Variables

Variables Used

Total Concentration - (Measured in Mole per Cubic Meter) - Total Concentration is the sum of concentration of all the components in a mixture.
Concentration of A - (Measured in Mole per Cubic Meter) - Concentration of A is the molar concentration of reactant substance A at any stage during the progress of the reaction.
Concentration of B - (Measured in Mole per Cubic Meter) - Concentration of B is the molar concentration of reactant substance B at any stage during the progress of the reaction.

STEP 1: Convert Input(s) to Base Unit

Concentration of A: 12 Mole per Liter --> 12000 Mole per Cubic Meter (Check conversion here)
Concentration of B: 14 Mole per Liter --> 14000 Mole per Cubic Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C = C_A+C_B --> 12000+14000

Evaluating ... ...

C = 26000

STEP 3: Convert Result to Output's Unit

26000 Mole per Cubic Meter -->26 Mole per Liter (Check conversion here)

FINAL ANSWER

26 Mole per Liter <-- Total Concentration

(Calculation completed in 00.020 seconds)

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< 17 Molar Diffusion Calculators

Molar Flux of Diffusing Component A through Non-Diffusing B based on Partial Pressure of A

Go Molar Flux of Diffusing Component A = ((Diffusion Coefficient (DAB)*Total Pressure of Gas)/([R]*Temperature of Gas*Film Thickness))*ln((Total Pressure of Gas-Partial Pressure of Component A in 2)/(Total Pressure of Gas-Partial Pressure of Component A in 1))

Molar Flux of Diffusing Component A through Non-Diffusing B based on Log Mean Partial Pressure

Go Molar Flux of Diffusing Component A = ((Diffusion Coefficient (DAB)*Total Pressure of Gas)/([R]*Temperature of Gas*Film Thickness))*((Partial Pressure of Component A in 1-Partial Pressure of Component A in 2)/Log Mean Partial Pressure of B)

Mass Diffusing Rate through Hollow Cylinder with Solid Boundary

Go Mass Diffusing Rate = (2*pi*Diffusion Coefficient*Length of Cylinder*(Mass Concentration of Component A in Mixture 1-Mass Concentration of Component A in Mixture 2))/ln(Outer Radius of Cylinder/Inner Radius of Cylinder)

Molar Flux of Diffusing Component A through Non-Diffusing B based on Partial Pressure of B

Go Molar Flux of Diffusing Component A = ((Diffusion Coefficient (DAB)*Total Pressure of Gas)/([R]*Temperature of Gas*Film Thickness))*ln(Partial Pressure of Component B in 2/Partial Pressure of Component B in 1)

Mass Diffusing Rate through Solid Boundary Sphere

Go Mass Diffusing Rate = (4*pi*Inner Radius*Outer Radius*Diffusion Coefficient*(Mass Concentration of Component A in Mixture 1-Mass Concentration of Component A in Mixture 2))/(Outer Radius-Inner Radius)

Molar Flux of Diffusing Component A for Equimolar Diffusion with B based on Mole Fraction of A

Go Molar Flux of Diffusing Component A = ((Diffusion Coefficient (DAB)*Total Pressure of Gas)/([R]*Temperature of Gas*Film Thickness))*(Mole Fraction of Component A in 1-Mole Fraction of Component A in 2)

Molar Flux of Diffusing Component A through Non-Diffusing B based on Mole Fractions of A and LMPP

Go Molar Flux of Diffusing Component A = ((Diffusion Coefficient (DAB)*(Total Pressure of Gas^2))/(Film Thickness))*((Mole Fraction of Component A in 1-Mole Fraction of Component A in 2)/Log Mean Partial Pressure of B)

Molar Flux of Diffusing Component A through Non-Diffusing B based on Concentration of A

Go Molar Flux of Diffusing Component A = ((Diffusion Coefficient (DAB)*Total Pressure of Gas)/(Film Thickness))*((Concentration of Component A in 1-Concentration of Component A in 2)/Log Mean Partial Pressure of B)

Molar Flux of Diffusing Component A through Non-Diffusing B based on Mole Fractions of A and LMMF

Go Molar Flux of Diffusing Component A = ((Diffusion Coefficient (DAB)*Total Pressure of Gas)/(Film Thickness))*((Mole Fraction of Component A in 1-Mole Fraction of Component A in 2)/Log Mean Mole Fraction of B)

Logarithmic Mean Partial Pressure Difference

Go Logarithmic Mean Partial Pressure Difference = (Partial Pressure of Component B in Mixture 2-Partial Pressure of Component B in Mixture 1)/(ln(Partial Pressure of Component B in Mixture 2/Partial Pressure of Component B in Mixture 1))

Logarithmic Mean of Concentration Difference

Go Logarithmic Mean of Concentration Difference = (Concentration of Component B in Mixture 2-Concentration of Component B in Mixture 1)/ln(Concentration of Component B in Mixture 2/Concentration of Component B in Mixture 1)

Molar Flux of Diffusing Component A through Non-Diffusing B based on Mole Fractions of A

Go Molar Flux of Diffusing Component A = ((Diffusion Coefficient (DAB)*Total Pressure of Gas)/(Film Thickness))*ln((1-Mole Fraction of Component A in 2)/(1-Mole Fraction of Component A in 1))

Molar Flux of Diffusing Component A for Equimolar Diffusion with B based on Partial Pressure of A

Go Molar Flux of Diffusing Component A = (Diffusion Coefficient (DAB)/([R]*Temperature of Gas*Film Thickness))*(Partial Pressure of Component A in 1-Partial Pressure of Component A in 2)

Molar Flux of Diffusing Component A through Non-Diffusing B based on Mole Fractions of B

Go Molar Flux of Diffusing Component A = ((Diffusion Coefficient (DAB)*Total Pressure of Gas)/(Film Thickness))*ln(Mole Fraction of Component B in 2/Mole Fraction of Component B in 1)

Mass Diffusing Rate through Solid Boundary Plate

Go Mass Diffusing Rate = (Diffusion Coefficient*(Mass Concentration of Component A in Mixture 1-Mass Concentration of Component A in Mixture 2)*Area of Solid Boundary Plate)/Thickness of Solid Plate

Convective Mass Transfer Coefficient

Go Convective Mass Transfer Coefficient = Mass Flux of Diffusion Component A/(Mass Concentration of Component A in Mixture 1-Mass Concentration of Component A in Mixture 2)

Total Concentration

Go Total Concentration = Concentration of A+Concentration of B

< 4 Mass Transfer Driving Force Calculators

Logarithmic Mean Partial Pressure Difference

Logarithmic Mean of Concentration Difference

Partial Pressure using Raoult's Law

Go Equilibrium Partial Pressure A = Mole Fraction of Component A in Liquid Phase*Vapor Pressure of Pure Component A

Total Concentration

Go Total Concentration = Concentration of A+Concentration of B

Total Concentration Formula

Total Concentration = Concentration of A+Concentration of B
C = C_A+C_B

What is concentration

Concentration is the abundance of a constituent divided by the total volume of a mixture. Several types of mathematical description can be distinguished: mass concentration, molar concentration, number concentration, and volume concentration.

How to Calculate Total Concentration?

Total Concentration calculator uses Total Concentration = Concentration of A+Concentration of B to calculate the Total Concentration, The total concentration formula is defined as the total of individual concentrations of the components in the mixture. Total Concentration is denoted by C symbol.

How to calculate Total Concentration using this online calculator? To use this online calculator for Total Concentration, enter Concentration of A (C_A) & Concentration of B (C_B) and hit the calculate button. Here is how the Total Concentration calculation can be explained with given input values -> 0.026 = 12000+14000.

FAQ

What is Total Concentration?

The total concentration formula is defined as the total of individual concentrations of the components in the mixture and is represented as C = C_A+C_B or Total Concentration = Concentration of A+Concentration of B. Concentration of A is the molar concentration of reactant substance A at any stage during the progress of the reaction & Concentration of B is the molar concentration of reactant substance B at any stage during the progress of the reaction.

How to calculate Total Concentration?

The total concentration formula is defined as the total of individual concentrations of the components in the mixture is calculated using Total Concentration = Concentration of A+Concentration of B. To calculate Total Concentration, you need Concentration of A (C_A) & Concentration of B (C_B). With our tool, you need to enter the respective value for Concentration of A & Concentration of 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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