Fugacity of Anodic Electrolyte of Concentration Cell without Transference Calculator

✖The Cathodic Concentration is the molar concentration of electrolytes present in the cathodic half cell.ⓘ Cathodic Concentration [c₂]			+10% -10%
✖The Cathodic Fugacity is a thermodynamic property of a real gas which if substituted for the pressure or partial pressure in the equations for an ideal gas gives equations applicable to the real gas.ⓘ Cathodic Fugacity [f₂]			+10% -10%
✖The Anodic concentration is the molar concentration of electrolytes present in the anodic half cell.ⓘ Anodic Concentration [c₁]			+10% -10%
✖The EMF of Cell or electromotive force of a cell is the maximum potential difference between two electrodes of a cell.ⓘ EMF of Cell [EMF]			+10% -10%
✖Temperature is the degree or intensity of heat present in a substance or object.ⓘ Temperature [T]			+10% -10%

✖The Anodic fugacity is a thermodynamic property of a real gas which if substituted for the pressure or partial pressure in the equations for an ideal gas gives equations applicable to the real gas.ⓘ Fugacity of Anodic Electrolyte of Concentration Cell without Transference [f₁]

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Formula

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Fugacity of Anodic Electrolyte of Concentration Cell without Transference

Formula

`"f"_{"1"} = (("c"_{"2"}*"f"_{"2"})/"c"_{"1"})/(exp(("EMF"*"[Faraday]")/(2*"[R]"*"T")))`

Example

`"453.6371Pa"=(("2.45mol/L"*"1878000Pa")/"0.6mol/L")/(exp(("0.5V"*"[Faraday]")/(2*"[R]"*"298K")))`

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Fugacity of Anodic Electrolyte of Concentration Cell without Transference Solution

STEP 0: Pre-Calculation Summary

Formula Used

Anodic Fugacity = ((Cathodic Concentration*Cathodic Fugacity)/Anodic Concentration)/(exp((EMF of Cell*[Faraday])/(2*[R]*Temperature)))
f₁ = ((c₂*f₂)/c₁)/(exp((EMF*[Faraday])/(2*[R]*T)))
This formula uses 2 Constants, 1 Functions, 6 Variables

Constants Used

[Faraday] - Faraday constant Value Taken As 96485.33212
[R] - Universal gas constant Value Taken As 8.31446261815324

Functions Used

exp - n an exponential function, the value of the function changes by a constant factor for every unit change in the independent variable., exp(Number)

Variables Used

Anodic Fugacity - (Measured in Pascal) - The Anodic fugacity is a thermodynamic property of a real gas which if substituted for the pressure or partial pressure in the equations for an ideal gas gives equations applicable to the real gas.
Cathodic Concentration - (Measured in Mole per Cubic Meter) - The Cathodic Concentration is the molar concentration of electrolytes present in the cathodic half cell.
Cathodic Fugacity - (Measured in Pascal) - The Cathodic Fugacity is a thermodynamic property of a real gas which if substituted for the pressure or partial pressure in the equations for an ideal gas gives equations applicable to the real gas.
Anodic Concentration - (Measured in Mole per Cubic Meter) - The Anodic concentration is the molar concentration of electrolytes present in the anodic half cell.
EMF of Cell - (Measured in Volt) - The EMF of Cell or electromotive force of a cell is the maximum potential difference between two electrodes of a cell.
Temperature - (Measured in Kelvin) - Temperature is the degree or intensity of heat present in a substance or object.

STEP 1: Convert Input(s) to Base Unit

Cathodic Concentration: 2.45 Mole per Liter --> 2450 Mole per Cubic Meter (Check conversion here)
Cathodic Fugacity: 1878000 Pascal --> 1878000 Pascal No Conversion Required
Anodic Concentration: 0.6 Mole per Liter --> 600 Mole per Cubic Meter (Check conversion here)
EMF of Cell: 0.5 Volt --> 0.5 Volt No Conversion Required
Temperature: 298 Kelvin --> 298 Kelvin No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

f₁ = ((c₂*f₂)/c₁)/(exp((EMF*[Faraday])/(2*[R]*T))) --> ((2450*1878000)/600)/(exp((0.5*[Faraday])/(2*[R]*298)))

Evaluating ... ...

f₁ = 453.637124326556

STEP 3: Convert Result to Output's Unit

453.637124326556 Pascal --> No Conversion Required

FINAL ANSWER

453.637124326556 ≈ 453.6371 Pascal <-- Anodic Fugacity

(Calculation completed in 00.004 seconds)

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K J Somaiya College of science (K J Somaiya), Mumbai

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< 25 Electrolytes & Ions Calculators

Valencies of Positive and Negative Ions of Concentration Cell with Transference

Go Valencies of Positive and Negative Ions = ((Transport Number of Anion*Total number of Ions*[R]*Temperature)/(EMF of Cell*Number of Positive and Negative Ions*[Faraday]))*ln(Cathodic Ionic Activity/Anodic Ionic Activity)

Total Number of Ions of Concentration Cell with Transference given Valencies

Go Total number of Ions = ((EMF of Cell*Number of Positive and Negative Ions*Valencies of Positive and Negative Ions*[Faraday])/(Transport Number of Anion*Temperature*[R]))/ln(Cathodic Ionic Activity/Anodic Ionic Activity)

Number of Positive and Negative Ions of Concentration Cell with Transference

Go Number of Positive and Negative Ions = ((Transport Number of Anion*Total number of Ions*[R]*Temperature)/(EMF of Cell*Valencies of Positive and Negative Ions*[Faraday]))*ln(Cathodic Ionic Activity/Anodic Ionic Activity)

Fugacity of Cathodic Electrolyte of Concentration Cell without Transference

Go Cathodic Fugacity = (exp((EMF of Cell*[Faraday])/(2*[R]*Temperature)))*((Anodic Concentration*Anodic Fugacity)/(Cathodic Concentration))

Fugacity of Anodic Electrolyte of Concentration Cell without Transference

Go Anodic Fugacity = ((Cathodic Concentration*Cathodic Fugacity)/Anodic Concentration)/(exp((EMF of Cell*[Faraday])/(2*[R]*Temperature)))

pOH of Salt of Strong Base and Weak Acid

Go Negative Log of Hydroxyl Concentration = 14-(Negative Log of Acid Ionization Constant+Negative Log of Ionic Product of Water+log10(Concentration of Salt))/2

pOH of Salt of Weak Base and Strong Base

Go Negative Log of Hydroxyl Concentration = 14-(Negative Log of Ionic Product of Water-Negative Log of Base Ionization Constant-log10(Concentration of Salt))/2

pH of Salt of Weak Acid and Strong Base

Go Negative Log of Hydronium Concentration = (Negative Log of Ionic Product of Water+Negative Log of Acid Ionization Constant+log10(Concentration of Salt))/2

pH of Salt of Weak Base and Strong Base

Go Negative Log of Hydronium Concentration = (Negative Log of Ionic Product of Water-Negative Log of Base Ionization Constant-log10(Concentration of Salt))/2

pOH of Salt of Weak Acid and Weak Base

Go Negative Log of Hydroxyl Concentration = 14-(Negative Log of Ionic Product of Water+Negative Log of Acid Ionization Constant-Negative Log of Base Ionization Constant)/2

pH of Salt of Weak Acid and Weak base

Go Negative Log of Hydronium Concentration = (Negative Log of Ionic Product of Water+Negative Log of Acid Ionization Constant-Negative Log of Base Ionization Constant)/2

pH Value of Ionic Product of Water

Go Negative Log of H+ Conc. for Ionic Pdt. of H₂O = Negative Log of Acid Ionization Constant+Negative Log of Base Ionization Constant

Time required for Flowing of Charge given Mass and Time

Go Total Time Taken = Mass of Ions/(Electrochemical Equivalent of Element*Electric Current)

Cell Potential given Electrochemical Work

Go Cell Potential = (Work Done/(Moles of Electron Transferred*[Faraday]))

Concentration of Hydronium Ion using pOH

Go Hydronium Ion Concentration = 10^Negative Log of Hydroxyl Concentration*Ionic Product of Water

Ionic Product of Water

Go Ionic Product of Water = Constant of Ionization of Acids*Constant Of Ionization Of Bases

Fugacity of Electrolyte given Activities

Go Fugacity = (sqrt(Ionic Activity))/Actual Concentration

pOH using Concentration of Hydroxide ion

Go Negative Log of Hydroxyl Concentration = 14+log10(Hydronium Ion Concentration)

pH of Water using Concentration

Go Negative Log of Hydronium Concentration = -log10(Hydronium Ion Concentration)

Quantity of Charges given Mass of Substance

Go Charge = Mass of Ions/Electrochemical Equivalent of Element

Relation between pH and pOH

Go Negative Log of Hydronium Concentration = 14-Negative Log of Hydroxyl Concentration

pOH of Strong acid and Strong base

Go Negative Log of Hydroxyl Concentration = Negative Log of Ionic Product of Water/2

Ionic Mobility

Go Ionic Mobility = Speed of Ions/Potential Gradient

Ionic Activity given Molality of Solution

Go Ionic Activity = (Activity Coefficient*Molality)

Concentration of Hydronium ion using pH

Go Hydronium Ion Concentration = 10^(-Negative Log of Hydronium Concentration)

Fugacity of Anodic Electrolyte of Concentration Cell without Transference Formula

Anodic Fugacity = ((Cathodic Concentration*Cathodic Fugacity)/Anodic Concentration)/(exp((EMF of Cell*[Faraday])/(2*[R]*Temperature)))
f₁ = ((c₂*f₂)/c₁)/(exp((EMF*[Faraday])/(2*[R]*T)))

What is Concentration cell without transference?

A cell in which the transference of a substance from a system of high concentration to one at low concentration results in the production of electrical energy is called a concentration cell. It consists of two half cells having two identical electrodes and identical electrolytes but with different concentrations. EMF of this cell depends upon the difference of concentration. Concentration cell without transference is no direct transference of electrolyte but it occurs due to the result of the chemical reaction. Each electrode is reversible with respect to one of the ions of the electrolyte.

How to Calculate Fugacity of Anodic Electrolyte of Concentration Cell without Transference?

Fugacity of Anodic Electrolyte of Concentration Cell without Transference calculator uses Anodic Fugacity = ((Cathodic Concentration*Cathodic Fugacity)/Anodic Concentration)/(exp((EMF of Cell*[Faraday])/(2*[R]*Temperature))) to calculate the Anodic Fugacity, The Fugacity of Anodic Electrolyte of Concentration Cell without Transference formula is defined as the relation of concentration and fugacity of cathodic concentration and anodic electrolyte concentration at a particular temperature. Anodic Fugacity is denoted by f₁ symbol.

How to calculate Fugacity of Anodic Electrolyte of Concentration Cell without Transference using this online calculator? To use this online calculator for Fugacity of Anodic Electrolyte of Concentration Cell without Transference, enter Cathodic Concentration (c₂), Cathodic Fugacity (f₂), Anodic Concentration (c₁), EMF of Cell (EMF) & Temperature (T) and hit the calculate button. Here is how the Fugacity of Anodic Electrolyte of Concentration Cell without Transference calculation can be explained with given input values -> 453.6371 = ((2450*1878000)/600)/(exp((0.5*[Faraday])/(2*[R]*298))).

FAQ

What is Fugacity of Anodic Electrolyte of Concentration Cell without Transference?

The Fugacity of Anodic Electrolyte of Concentration Cell without Transference formula is defined as the relation of concentration and fugacity of cathodic concentration and anodic electrolyte concentration at a particular temperature and is represented as f₁ = ((c₂*f₂)/c₁)/(exp((EMF*[Faraday])/(2*[R]*T))) or Anodic Fugacity = ((Cathodic Concentration*Cathodic Fugacity)/Anodic Concentration)/(exp((EMF of Cell*[Faraday])/(2*[R]*Temperature))). The Cathodic Concentration is the molar concentration of electrolytes present in the cathodic half cell, The Cathodic Fugacity is a thermodynamic property of a real gas which if substituted for the pressure or partial pressure in the equations for an ideal gas gives equations applicable to the real gas, The Anodic concentration is the molar concentration of electrolytes present in the anodic half cell, The EMF of Cell or electromotive force of a cell is the maximum potential difference between two electrodes of a cell & Temperature is the degree or intensity of heat present in a substance or object.

How to calculate Fugacity of Anodic Electrolyte of Concentration Cell without Transference?

The Fugacity of Anodic Electrolyte of Concentration Cell without Transference formula is defined as the relation of concentration and fugacity of cathodic concentration and anodic electrolyte concentration at a particular temperature is calculated using Anodic Fugacity = ((Cathodic Concentration*Cathodic Fugacity)/Anodic Concentration)/(exp((EMF of Cell*[Faraday])/(2*[R]*Temperature))). To calculate Fugacity of Anodic Electrolyte of Concentration Cell without Transference, you need Cathodic Concentration (c₂), Cathodic Fugacity (f₂), Anodic Concentration (c₁), EMF of Cell (EMF) & Temperature (T). With our tool, you need to enter the respective value for Cathodic Concentration, Cathodic Fugacity, Anodic Concentration, EMF of Cell & Temperature 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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