Activities of electrolyte if concentration and fugacity are given
Activity coefficient if the ionic activity is given
Activity coefficient of electrolyte(anodic) of concentration cell with transference
Activity coefficient of electrolyte(anodic) of concentration cell without transference
Activity coefficient of electrolyte(cathodic) of concentration cell with transference
Activity of electrolyte(anodic) of concentration cell with transference
Activity of electrolyte(anodic) of concentration cell with transference in terms of valencies
Activity of electrolyte(anodic) of concentration cell without transference
Activity of electrolyte(cathodic) of concentration cell with transference
Activity of electrolyte(cathodic) of concentration cell with transference in terms of valencies
Activity of electrolyte(cathodic) of concentration cell without transference
Actual mass if current efficiency is given
Area of cross-section if Resistance and Resistivity given
Area of cross-section of electrode if conductance and conductivity given
Cell constant if conductance and conductivity given
Cell constant if resistance and resistivity is given
Cell potential if change in Gibbs free energy is given
Cell potential if electrochemical work is given
Change in Gibbs free energy if cell potential is given
Change in Gibbs free energy if electrochemical work is given
Charge number of ion species using Debey-Huckel limiting law
Charge transfer coefficient if Tafel slope is given
Charge transfer coefficient if thermal voltage is given
Classical Internal energy if electrical internal energy is given
Classical part of Gibbs free entropy if electric part is given
Classical part of Helmholtz free entropy if the electric part is given
Concentration of electrolyte if fugacity is given
Concentration of electrolyte(anodic) of concentration cell without transference
Concentration of electrolyte(anodic) of dilute concentration cell without transference
Concentration of electrolyte(cathodic) of concentration cell without transference
Concentration of electrolyte(cathodic) of dilute concentration cell without transference
Conductance if cell constant is given
Conductance if conductivity is given
Conductivity if cell constant is given
Conductivity if conductance is given
Conductivity if molar volume of solution is given
Current density for anodic reaction from Tafel equation
Current density for cathodic reaction from Tafel equation
Current flowing if mass and equivalent weight of subsatance are given
Current flowing if mass of subsatance is given
Debey-Huckel limiting law constant (A)
Degree of dissociation if concentration and dissociation constant of weak electrolyte are given
Degree of dissociation of acid 1 if dissociation constant of both acids is given
Degree of dissociation of acid 2 if dissociation constant of both acids is given
Degree of dissociation of base 1 if dissociation constant of both base are given
Degree of dissociation of base 2 if dissociation constant of both base are given
Dissociation constant if degree of dissociation of weak electrolyte is given
Dissociation constant of acid 1 if degree of dissociation of both the acids are given
Dissociation constant of acid 2 if degree of dissociation of both the acids are given
Dissociation constant of base 1 if degree of dissociation of both the base are given
Dissociation constant of base 2 if degree of dissociation of both the base are given
Distance between electrode if conductance and conductivity given
Distance between electrode if resistance and resistivity given
Electric elementary charge if Tafel slope is given
Electric elementary charge if thermal voltage is given
Electric part internal energy if the classical part is given
Electric part of Gibbs free entropy if classical part is given
Electric part of Helmholtz free entropy if the classical part is given
Electrical Energy of Electrochemical Cell
Electrochemical equivalent if charge and mass of substance is given
Electrochemical equivalent if current and mass of substance is given
Electrochemical equivalent if equivalent weight is given
Electrode Potential (when gibbs free energy is given)
EMF of concentration cell with transference if activities are given
EMF of concentration cell with transference if transport number of anion is given
EMF of concentration cell with transference in terms of valencies
EMF of concentration cell without transference for dilute solution if concentration is given
EMF of concentration cell without transference if activities are given
EMF of concentration cell without transference if concentration and fugacity are given
EMF of concentration cell without transference if molalities and activity coefficient are given
Entropy if Gibbs free entropy is given
Entropy if internal energy and Helmholtz free entropy are given
Equilibrium Constant (when degree of dissociation is given)
Equivalent conductance if normality is given
Equivalent weight if electrochemical equivalent is given
Equivalent weight if mass and charge are given
Equivalent weight if mass and current flowing are given
Equivalent weight of 1st element by Faraday's second law of electrolysis
Equivalent weight of 2nd element by Faraday's second law of electrolysis
Excess pressure if the osmotic coefficient if given
Exchange current density for anodic reaction from Tafel equation
Exchange current density for cathodic reaction from Tafel equation
Fugacity of electrolyte If activities are given
Fugacity of electrolyte(anodic) of concentration cell without transference
Fugacity of electrolyte(cathodic) of concentration cell without transference
Gibbs free energy if Gibbs free entropy is given
Gibbs free entropy if classical and electric part is given
Gibbs free entropy if Gibbs free energy is given
Gibbs free entropy if Helmholtz free entropy is given
Helmholtz free energy if Helmholtz free entropy and temperature are given
Helmholtz free entropy if classical and electric part is given
Helmholtz free entropy if Gibbs free entropy is given
Helmholtz free entropy if Helmholtz free energy is given
Ideal pressure if the osmotic coefficient is given
Internal energy if Gibbs free entropy is given
Internal energy if Helmholtz free entropy and entropy are given
Internal energy if the classical and electrical part is given
Ionic activity if molality of a solution is given
Ionic strength for bi-bivalent electrolyte
Ionic strength for bi-bivalent electrolyte if molality of cation and anion is same
Ionic strength for uni-univalent electrolyte
Ionic strength for uni-univalent electrolyte if molality of cation and anion is same
Ionic strength of bi-trivalent electrolyte
Ionic strength of bi-trivalent electrolyte if molality of cation and anion are same
Ionic strength of uni-bivalent electrolyte
Ionic strength of uni-bivalent electrolyte if molality of cation and anion are same
Ionic strength using Debey-Huckel limiting law
Limiting Molar Conductivity of Anions
Limiting Molar Conductivity of Cations
Mass of Primary product formed at electrode
Mass of substance undergoing electrolysis if charges and equivalent weight are given
Mass of substance undergoing electrolysis if charges are given
Mass of substance undergoing electrolysis if current and equivalent weight are given
Mass of substance undergoing electrolysis if current and time are given
Mean activity coefficient for bi-trivalent electrolyte
Mean activity coefficient for Uni-bivalent electrolyte
Mean activity coefficient for Uni-trivalent electrolyte
Mean activity coefficient for Uni-univalent electrolyte
Mean ionic activity for bi-trivalent electrolyte
Mean ionic activity for Uni-bivalent electrolyte
Mean ionic activity for Uni-trivalent electrolyte
Mean ionic activity for Uni-univalent electrolyte
Molality if ionic activity and activity coefficient are given
Molality of bi-trivalent electrolyte if ionic strength is given
Molality of bi-trivalent electrolyte if mean ionic activity is given
Molality of electrolyte(anodic) of concentration cell with transference
Molality of electrolyte(anodic) of concentration cell without transference
Molality of electrolyte(cathodic) of concentration cell with transference
Molality of uni-bivalent electrolyte if mean ionic activity is given
Molality of uni-trivalent electrolyte if mean ionic activity is given
Molality of uni-univalent electrolyte if mean ionic activity is given
Molar concentration if dissociation constant of weak electrolyte is given
Molar conductivity (when molarity is given)
Molar conductivity if conductivity and volume given
Molar Volume of solution if molar conductivity given
Molarity of bi-bivalent electrolyte if ionic strength is given
Molarity of solution if molar conductivity given
Molarity of uni-bivalent electrolyte if ionic strength is given
Moles of electron transferred if change in Gibbs free energy is given
Moles of electron transferred if electrochemical work is given
Moles of electron transferred if Standard change in Gibbs free energy is given
Nernst Equation (for solid ,liquids & gases at 1 atom)
Normality if equivalent conductance is given
Number of positive and negative ions of concentration cell with transference
Osmotic coefficient if ideal and excess pressure is given
Overpotential for anodic reaction from Tafel equation
Overpotential for cathodic reaction from Tafel equation
Pressure if Gibbs and Helmholtz free entropy is given
Pressure if Gibbs free entropy is given
Quantity of charges if equivalent weight and mass of substance are given
Quantity of charges if mass of substance is given
Resistance if cell constant is given
Resistance if conductance is given
Resistance if distance between electrode and area of cross-section of electrode is given
Resistivity if cell constant is given
Resistivity if specific conductance is given
Specific conductance if molarity is given
Specific conductivity if equivalent conductivity and normality of solution is given
Standard Cell potential if change in Standard change in Gibbs free energy is given
Standard change in Gibbs free energy if standard cell potential is given
Tafel slope for anodic reaction from Tafel equation
Tafel slope for cathodic reaction from Tafel equation
Tafel slope if temperature and charge transfer coefficient is given
Tafel slope if thermal voltage is given
Temperature of concentration cell with transference if transport number of anion is given
Temperature if Gibbs and Helmholtz free entropy is given
Temperature if Gibbs free energy and Gibbs free entropy is given
Temperature if Gibbs free entropy is given
Temperature if internal energy and Helmholtz free entropy are given
Temperature if Tafel slope is given
Temperature if thermal voltage and electric elementary charge is given
Temperature of concentration cell with transference if activities are given
Temperature of concentration cell with transference in terms of valencies
Temperature of concentration cell without transference for dilute solution if concentration is given
Temperature of concentration cell without transference if activities are given
Temperature of concentration cell without transference if concentration and fugacity are given
Temperature of concentration cell without transference if molalities are given
Theoretical mass if current efficiency and actual mass is given
Thermal voltage if Tafel slope is given
Thermal voltage if temperature and electric elementary charge is given
Time required for flowing of charge if mass and time are given
Time required for flowing of current if mass and equivalent weight are given
Total number of ions of concentration cell with transference in terms of valencies
Transport Number for Anion
Transport Number for Cation
Transport number of anion for concentration cell with transference
Transport number of cation for concentration cell with transference
Valencies of positive and negative ions of concentration cell with transference
Volume if Gibbs and Helmholtz free entropy is given
Volume if Gibbs free entropy is given
Weight of 1st ion by Faraday's second law of electrolysis
Weight of 2nd ion by Faraday's second law of electrolysis
Work done by the electrochemical cell if cell potential is given