Temperature given Tafel Slope Solution

STEP 0: Pre-Calculation Summary
Formula Used
Temperature of Liquid = (Tafel Slope*Charge transfer coefficient*Elementary Charge)/(ln(10)*[BoltZ])
T = (Aslope*α*e)/(ln(10)*[BoltZ])
This formula uses 1 Constants, 1 Functions, 4 Variables
Constants Used
[BoltZ] - Boltzmann constant Value Taken As 1.38064852E-23
Functions Used
ln - The natural logarithm, also known as the logarithm to the base e, is the inverse function of the natural exponential function., ln(Number)
Variables Used
Temperature of Liquid - (Measured in Kelvin) - The temperature of liquid is the degree or intensity of heat present in a liquid.
Tafel Slope - (Measured in Volt) - The Tafel Slope describes how the electrical current through an electrode depends on the voltage difference between the electrode and the bulk electrolyte. The Tafel slope is measured experimentally.
Charge transfer coefficient - The Charge transfer coefficient used in the description of the kinetics of the electrochemical reaction.
Elementary Charge - (Measured in Coulomb) - The Elementary charge is the electric charge carried out by a single proton or single elctron.
STEP 1: Convert Input(s) to Base Unit
Tafel Slope: 7 Volt --> 7 Volt No Conversion Required
Charge transfer coefficient: 0.5 --> No Conversion Required
Elementary Charge: 4 Coulomb --> 4 Coulomb No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
T = (Aslope*α*e)/(ln(10)*[BoltZ]) --> (7*0.5*4)/(ln(10)*[BoltZ])
Evaluating ... ...
T = 4.40381650982795E+23
STEP 3: Convert Result to Output's Unit
4.40381650982795E+23 Kelvin --> No Conversion Required
FINAL ANSWER
4.40381650982795E+23 4.4E+23 Kelvin <-- Temperature of Liquid
(Calculation completed in 00.004 seconds)

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K J Somaiya College of science (K J Somaiya), Mumbai
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14 Temperature of Concentration Cell Calculators

Temperature of concentration cell with transference given valencies
​ Go Temperature of Liquid = ((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]))/ln(Cathodic Ionic Activity/Anodic Ionic Activity)
Temperature of Concentration Cell with Transference given Transport Number of Anion
​ Go Temperature of Liquid = ((EMF of Cell*[Faraday])/(2*Transport Number of Anion*[R]))/(ln(Cathodic Electrolyte Molality*Cathodic Activity Coefficient)/(Anodic Electrolyte Molality*Anodic Activity Coefficient))
Temperature of Concentration Cell without Transference given Molalities
​ Go Temperature of Liquid = (EMF of Cell*([Faraday]/2*[R]))/(ln((Cathodic Electrolyte Molality*Cathodic Activity Coefficient)/(Anodic Electrolyte Molality*Anodic Activity Coefficient)))
Temperature of concentration cell without transference given concentration and fugacity
​ Go Temperature of Liquid = ((EMF of Cell*[Faraday])/(2*[R]))/ln((Cathodic Concentration*Cathodic Fugacity)/(Anodic Concentration*Anodic Fugacity))
Temperature of Concentration Cell with Transference given Activities
​ Go Temperature of Liquid = ((EMF of Cell*[Faraday])/(Transport Number of Anion*[R]))/ln(Cathodic Ionic Activity/Anodic Ionic Activity)
Temperature of concentration cell without transference for dilute solution given concentration
​ Go Temperature of Liquid = ((EMF of Cell*[Faraday])/(2*[R]))/(ln(Cathodic Concentration/Anodic Concentration))
Temperature of Concentration Cell without Transference given Activities
​ Go Temperature of Liquid = (EMF of Cell*([Faraday]/[R]))/(ln(Cathodic Ionic Activity/Anodic Ionic Activity))
Temperature given Tafel Slope
​ Go Temperature of Liquid = (Tafel Slope*Charge transfer coefficient*Elementary Charge)/(ln(10)*[BoltZ])
Temperature given Gibbs free entropy
​ Go Temperature of Liquid = ((Internal Energy+(Pressure*Volume))/(Entropy-Gibbs Free Entropy))
Temperature given Gibbs and Helmholtz free entropy
​ Go Temperature of Liquid = (Pressure*Volume)/(Helmholtz Free Entropy-Gibbs Free Entropy)
Temperature given internal energy and Helmholtz free entropy
​ Go Temperature of Liquid = Internal Energy/(Entropy-Helmholtz Free Entropy)
Temperature given Thermal Voltage and Electric Elementary Charge
​ Go Temperature of Liquid = (Thermal Voltage*Elementary Charge)/([BoltZ])
Temperature given Helmholtz free energy and Helmholtz free entropy
​ Go Temperature of Liquid = -(Helmholtz Free Energy of System/Helmholtz Free Entropy)
Temperature given Gibbs free energy and Gibbs free entropy
​ Go Temperature of Liquid = -(Gibbs Free Energy/Gibbs Free Entropy)

Temperature given Tafel Slope Formula

Temperature of Liquid = (Tafel Slope*Charge transfer coefficient*Elementary Charge)/(ln(10)*[BoltZ])
T = (Aslope*α*e)/(ln(10)*[BoltZ])

What is Tafel equation?

The Tafel equation is an equation in electrochemical kinetics relating the rate of an electrochemical reaction to the overpotential. The Tafel equation was first deduced experimentally and was later shown to have a theoretical justification. The equation is named after Swiss chemist Julius Tafel.
" It describes how the electrical current through an electrode depends on the voltage difference between the electrode and the bulk electrolyte for a simple, unimolecular redox reaction ".

How to Calculate Temperature given Tafel Slope?

Temperature given Tafel Slope calculator uses Temperature of Liquid = (Tafel Slope*Charge transfer coefficient*Elementary Charge)/(ln(10)*[BoltZ]) to calculate the Temperature of Liquid, The Temperature given Tafel slope formula is defined as the direct relation to the product of Tafel slope, elementary charge, and charge transfer coefficient. Temperature of Liquid is denoted by T symbol.

How to calculate Temperature given Tafel Slope using this online calculator? To use this online calculator for Temperature given Tafel Slope, enter Tafel Slope (Aslope), Charge transfer coefficient (α) & Elementary Charge (e) and hit the calculate button. Here is how the Temperature given Tafel Slope calculation can be explained with given input values -> 4.4E+23 = (7*0.5*4)/(ln(10)*[BoltZ]).

FAQ

What is Temperature given Tafel Slope?
The Temperature given Tafel slope formula is defined as the direct relation to the product of Tafel slope, elementary charge, and charge transfer coefficient and is represented as T = (Aslope*α*e)/(ln(10)*[BoltZ]) or Temperature of Liquid = (Tafel Slope*Charge transfer coefficient*Elementary Charge)/(ln(10)*[BoltZ]). The Tafel Slope describes how the electrical current through an electrode depends on the voltage difference between the electrode and the bulk electrolyte. The Tafel slope is measured experimentally, The Charge transfer coefficient used in the description of the kinetics of the electrochemical reaction & The Elementary charge is the electric charge carried out by a single proton or single elctron.
How to calculate Temperature given Tafel Slope?
The Temperature given Tafel slope formula is defined as the direct relation to the product of Tafel slope, elementary charge, and charge transfer coefficient is calculated using Temperature of Liquid = (Tafel Slope*Charge transfer coefficient*Elementary Charge)/(ln(10)*[BoltZ]). To calculate Temperature given Tafel Slope, you need Tafel Slope (Aslope), Charge transfer coefficient (α) & Elementary Charge (e). With our tool, you need to enter the respective value for Tafel Slope, Charge transfer coefficient & Elementary Charge and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Temperature of Liquid?
In this formula, Temperature of Liquid uses Tafel Slope, Charge transfer coefficient & Elementary Charge. We can use 13 other way(s) to calculate the same, which is/are as follows -
  • Temperature of Liquid = Internal Energy/(Entropy-Helmholtz Free Entropy)
  • Temperature of Liquid = -(Helmholtz Free Energy of System/Helmholtz Free Entropy)
  • Temperature of Liquid = ((Internal Energy+(Pressure*Volume))/(Entropy-Gibbs Free Entropy))
  • Temperature of Liquid = (Pressure*Volume)/(Helmholtz Free Entropy-Gibbs Free Entropy)
  • Temperature of Liquid = -(Gibbs Free Energy/Gibbs Free Entropy)
  • Temperature of Liquid = (Thermal Voltage*Elementary Charge)/([BoltZ])
  • Temperature of Liquid = (EMF of Cell*([Faraday]/[R]))/(ln(Cathodic Ionic Activity/Anodic Ionic Activity))
  • Temperature of Liquid = (EMF of Cell*([Faraday]/2*[R]))/(ln((Cathodic Electrolyte Molality*Cathodic Activity Coefficient)/(Anodic Electrolyte Molality*Anodic Activity Coefficient)))
  • Temperature of Liquid = ((EMF of Cell*[Faraday])/(2*[R]))/ln((Cathodic Concentration*Cathodic Fugacity)/(Anodic Concentration*Anodic Fugacity))
  • Temperature of Liquid = ((EMF of Cell*[Faraday])/(2*[R]))/(ln(Cathodic Concentration/Anodic Concentration))
  • Temperature of Liquid = ((EMF of Cell*[Faraday])/(2*Transport Number of Anion*[R]))/(ln(Cathodic Electrolyte Molality*Cathodic Activity Coefficient)/(Anodic Electrolyte Molality*Anodic Activity Coefficient))
  • Temperature of Liquid = ((EMF of Cell*[Faraday])/(Transport Number of Anion*[R]))/ln(Cathodic Ionic Activity/Anodic Ionic Activity)
  • Temperature of Liquid = ((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]))/ln(Cathodic Ionic Activity/Anodic Ionic Activity)
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