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Activity of Anodic Electrolyte of Concentration Cell with Transference Formula

GoActivity of Anodic Electrolyte of Concentration Cell without Transference Formula

GoActivity of Anodic Electrolyte of Concentration Cell with Transference given Valencies Formula

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The Anodic Ionic Activity is the measure of the effective concentration of a molecule or ionic species in an anodic half cell. Check FAQs

a 1 = \frac{a 2}{\exp (\frac{E cell \cdot [Faraday]}{t - \cdot [R] \cdot T})}

a₁ - Anodic Ionic Activity?a₂ - Cathodic Ionic Activity?E_cell - EMF of Cell?t_- - Transport Number of Anion?T - Temperature?[Faraday] - Faraday constant?[R] - Universal gas constant?

Activity of Anodic Electrolyte of Concentration Cell with Transference Example

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Here is how the Activity of Anodic Electrolyte of Concentration Cell with Transference equation looks like with Values.

Here is how the Activity of Anodic Electrolyte of Concentration Cell with Transference equation looks like with Units.

Here is how the Activity of Anodic Electrolyte of Concentration Cell with Transference equation looks like.

2.7E-9 = \frac{2.5E+9}{\exp (\frac{0.51 \cdot 96485.3321}{0.48 \cdot 8.3145 \cdot 298})}

2.7E-9mol/kg = \frac{2.5E+9mol/kg}{\exp (\frac{0.51V \cdot 96485.3321}{0.48 \cdot 8.3145 \cdot 298K})}

2.7E-9 = \frac{2.5E+9}{\exp (\frac{0.51 \cdot 96485.3321}{0.48 \cdot 8.3145 \cdot 298})}

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Activity of Electrolytes » fx Activity of Anodic Electrolyte of Concentration Cell with Transference

Activity of Anodic Electrolyte of Concentration Cell with Transference Solution

Follow our step by step solution on how to calculate Activity of Anodic Electrolyte of Concentration Cell with Transference?

FIRST Step Consider the formula

a 1 = \frac{a 2}{\exp (\frac{E cell \cdot [Faraday]}{t - \cdot [R] \cdot T})}

Next Step Substitute values of Variables

∴

a 1 = \frac{2.5E+9mol/kg}{\exp (\frac{0.51V \cdot [Faraday]}{0.48 \cdot [R] \cdot 298K})}

Next Step Substitute values of Constants

∴

a 1 = \frac{2.5E+9mol/kg}{\exp (\frac{0.51V \cdot 96485.3321}{0.48 \cdot 8.3145 \cdot 298K})}

Next Step Prepare to Evaluate

∴

a 1 = \frac{2.5E+9}{\exp (\frac{0.51 \cdot 96485.3321}{0.48 \cdot 8.3145 \cdot 298})}

Next Step Evaluate

∴

a 1 = 2.6849253640043E-09mol/kg

LAST Step Rounding Answer

∴

a 1 = 2.7E-9mol/kg

Activity of Anodic Electrolyte of Concentration Cell with Transference Formula Elements

Variables

Constants

Functions

Anodic Ionic Activity

The Anodic Ionic Activity is the measure of the effective concentration of a molecule or ionic species in an anodic half cell.

Symbol: a₁

Measurement: MolalityUnit: mol/kg

Note: Value can be positive or negative.

Formulas to find Anodic Ionic Activity

Cathodic Ionic Activity

Cathodic Ionic Activity is the measure of the effective concentration of a molecule or ionic species in a cathodic half-cell.

Symbol: a₂

Measurement: MolalityUnit: mol/kg

Note: Value can be positive or negative.

Formulas to find Cathodic Ionic Activity

EMF of Cell

The EMF of Cell or electromotive force of a cell is the maximum potential difference between two electrodes of a cell.

Symbol: E_cell

Measurement: Electric PotentialUnit: V

Note: Value can be positive or negative.

Formulas to find EMF of Cell

Transport Number of Anion

The Transport Number of Anion is ratio of current carried by anion to total current.

Symbol: t_-

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Transport Number of Anion

Temperature

Temperature is the degree or intensity of heat present in a substance or object.

Symbol: T

Measurement: TemperatureUnit: K

Note: Value can be positive or negative.

Formulas to find Temperature

Faraday constant

Faraday constant represents the charge of one mole of electrons and is used in electrochemistry to relate the amount of substance undergoing oxidation.

Symbol: [Faraday]

Value: 96485.33212

Universal gas constant

Universal gas constant is a fundamental physical constant that appears in the ideal gas law, relating the pressure, volume, and temperature of an ideal gas.

Symbol: [R]

Value: 8.31446261815324

exp

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

Syntax: exp(Number)

Other Formulas to find Anodic Ionic Activity

Go Activity of Anodic Electrolyte of Concentration Cell without Transference

a 1 = \frac{a 2}{\exp (\frac{E cell \cdot [Faraday]}{[R] \cdot T})}

Go Activity of Anodic Electrolyte of Concentration Cell with Transference given Valencies

a 1 = \frac{a 2}{\exp (\frac{E cell \cdot ν± \cdot Z± \cdot [Faraday]}{t - \cdot ν \cdot [R] \cdot T})}

Other formulas in Activity of Electrolytes category

Go Activity Coefficient given Ionic Activity

γ = (\frac{a}{m})

Go Activity of Cathodic Electrolyte of Concentration Cell without Transference

a 2 = a 1 \cdot (\exp (\frac{E cell \cdot [Faraday]}{[R] \cdot T}))

Go Activity Coefficient of Cathodic Electrolyte of Concentration Cell without Transference

γ 2 = (\exp (\frac{E cell \cdot [Faraday]}{2 \cdot [R] \cdot T})) \cdot (\frac{m 1 \cdot γ 1}{M 2})

Go Activity Coefficient of Anodic Electrolyte of Concentration Cell without Transference

γ 1 = \frac{\frac{M 2 \cdot γ 2}{m 1}}{\exp (\frac{E cell \cdot [Faraday]}{2 \cdot [R] \cdot T})}

How to Evaluate Activity of Anodic Electrolyte of Concentration Cell with Transference?

Activity of Anodic Electrolyte of Concentration Cell with Transference evaluator uses Anodic Ionic Activity = Cathodic Ionic Activity/(exp((EMF of Cell*[Faraday])/(Transport Number of Anion*[R]*Temperature))) to evaluate the Anodic Ionic Activity, The Activity of Anodic Electrolyte of Concentration Cell with Transference formula is defined as the relation with emf of the cell and with the transport number of the anion in the electrolytic solution. Anodic Ionic Activity is denoted by a₁ symbol.

How to evaluate Activity of Anodic Electrolyte of Concentration Cell with Transference using this online evaluator? To use this online evaluator for Activity of Anodic Electrolyte of Concentration Cell with Transference, enter Cathodic Ionic Activity (a₂), EMF of Cell (E_cell), Transport Number of Anion (t_-) & Temperature (T) and hit the calculate button.

FAQs on Activity of Anodic Electrolyte of Concentration Cell with Transference

What is the formula to find Activity of Anodic Electrolyte of Concentration Cell with Transference?

The formula of Activity of Anodic Electrolyte of Concentration Cell with Transference is expressed as Anodic Ionic Activity = Cathodic Ionic Activity/(exp((EMF of Cell*[Faraday])/(Transport Number of Anion*[R]*Temperature))). Here is an example- 2.7E-9 = 2500000000/(exp((0.51*[Faraday])/(0.48*[R]*298))).

How to calculate Activity of Anodic Electrolyte of Concentration Cell with Transference?

With Cathodic Ionic Activity (a₂), EMF of Cell (E_cell), Transport Number of Anion (t_-) & Temperature (T) we can find Activity of Anodic Electrolyte of Concentration Cell with Transference using the formula - Anodic Ionic Activity = Cathodic Ionic Activity/(exp((EMF of Cell*[Faraday])/(Transport Number of Anion*[R]*Temperature))). This formula also uses Faraday constant, Universal gas constant and Exponential Growth Function function(s).

What are the other ways to Calculate Anodic Ionic Activity?

Here are the different ways to Calculate Anodic Ionic Activity-

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

Can the Activity of Anodic Electrolyte of Concentration Cell with Transference be negative?

Yes, the Activity of Anodic Electrolyte of Concentration Cell with Transference, measured in Molality can be negative.

Which unit is used to measure Activity of Anodic Electrolyte of Concentration Cell with Transference?

Activity of Anodic Electrolyte of Concentration Cell with Transference is usually measured using the Mole per Kilogram[mol/kg] for Molality. Millimole per Kilogram[mol/kg] are the few other units in which Activity of Anodic Electrolyte of Concentration Cell with Transference can be measured.

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Activity of Anodic Electrolyte of Concentration Cell with Transference Formula

​GoActivity of Anodic Electrolyte of Concentration Cell without Transference Formula

​GoActivity of Anodic Electrolyte of Concentration Cell with Transference given Valencies Formula

Activity of Anodic Electrolyte of Concentration Cell with Transference Example

Activity of Anodic Electrolyte of Concentration Cell with Transference Solution

Activity of Anodic Electrolyte of Concentration Cell with Transference Formula Elements

Other Formulas to find Anodic Ionic Activity

Other formulas in Activity of Electrolytes category

How to Evaluate Activity of Anodic Electrolyte of Concentration Cell with Transference?

FAQs on Activity of Anodic Electrolyte of Concentration Cell with Transference

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GoActivity of Anodic Electrolyte of Concentration Cell without Transference Formula

GoActivity of Anodic Electrolyte of Concentration Cell with Transference given Valencies Formula