Balanced Redox Reaction Calculator

Fact Checked by: Dr. Sarah Jenkins, PhD Electrochemistry Specialist & Chemical Engineer

This balanced redox reaction calculator helps you solve for missing variables in the Nernst Equation, which is the fundamental mathematical expression used to determine the cell potential of an oxidation-reduction reaction under non-standard conditions.

Balanced Redox Reaction Calculator

Leave one field empty to calculate its value.

Calculated Result:

Please enter at least 4 variables to solve for the remaining one.

Balanced Redox Reaction Calculator Formula:

E = E° – (RT / nF) * ln(Q)

Source: LibreTexts Chemistry – Nernst Equation

Variables:

• E (Cell Potential): The measured voltage of the redox reaction under specific conditions.
• E° (Standard Potential): The potential under standard conditions (1M, 1 atm, 25°C).
• R (Gas Constant): 8.314 J/(mol·K).
• T (Temperature): The absolute temperature in Kelvin.
• n (Moles of Electrons): Total number of electrons transferred in the balanced redox equation.
• F (Faraday Constant): 96,485 C/mol.
• Q (Reaction Quotient): Ratio of product activities to reactant activities.

Related Calculators:

• Oxidation State Finder
• Half-Reaction Balancer
• Gibbs Free Energy Calculator
• Faraday’s Law Calculator

What is Balanced Redox Reaction Calculator?

A balanced redox reaction calculator is a digital tool designed to help chemists and students determine the electrochemical behavior of oxidation-reduction reactions. Unlike simple balancing tools that only check stoichiometry, this calculator applies the Nernst Equation to evaluate how concentrations and temperature affect the actual voltage output of a battery or chemical cell.

In electrochemistry, balancing the reaction is only the first step. To understand if a reaction will proceed spontaneously or how much energy it will produce, one must calculate the cell potential (E). This tool allows you to input known experimental data to find unknown variables such as the reaction quotient (Q) or the standard potential (E°).

How to Calculate Balanced Redox Reaction (Example):

Suppose you have a Zinc-Copper cell at 298.15K where n = 2 electrons are transferred. E° = 1.10V and Q = 0.01.

1. Identify the constants: R = 8.314, F = 96485.
2. Plug into the formula: E = 1.10 – ( (8.314 * 298.15) / (2 * 96485) ) * ln(0.01).
3. Calculate the fraction: (2478.9 / 192970) = 0.0128.
4. Calculate natural log: ln(0.01) ≈ -4.605.
5. Final Result: E = 1.10 – (0.0128 * -4.605) = 1.10 + 0.059 = 1.159V.

Frequently Asked Questions (FAQ):

What does a negative cell potential mean?

A negative E value indicates that the reaction is non-spontaneous in the written direction and would require an external energy source to occur.

Why is the number of electrons (n) important?

The variable ‘n’ represents the stoichiometry of the electron exchange. If the reaction isn’t balanced properly, the cell potential calculation will be incorrect.

Can I use Celsius instead of Kelvin?

No, the Nernst equation requires absolute temperature in Kelvin. Add 273.15 to your Celsius value.

What is the difference between E and E°?

E° is a constant value for a reaction at standard state, while E changes based on the concentrations of reactants and products (Q).