Ionic Strength


Background

Ionic strength describes the overall electrostatic intensity of an electrolyte solution.

Ionic strength:
I = 0.5 × Σ(cᵢ × zᵢ²)
Debye-Hückel (limiting law):
log₁₀(γ) = -A × z² × √I
  • Activity instead of concentration
  • Electrolyte equilibria
  • Salt and buffer solutions
Formulas
I = 0.5 × Σ(cᵢ × zᵢ²)
log₁₀(γ) = -A × z² × √I
inverse: I = ( log₁₀(γ) / (-A×z²) )²


Examples
NaCl 0.10 M
I = 0.5×(0.1×1² + 0.1×1²)=0.10
γ for z=1
I=0.10; A=0.509
γ≈0.69
Multivalent ions
z² strongly increases contribution (z=2 → factor 4).
Debye-Hückel range
Useful at low to moderate ionic strength.
Technical Background
Why activity coefficients?

In electrolyte solutions, activities deviate from concentrations. γ corrects this behavior.

Applications
  • Chemical equilibrium
  • pH and buffer calculations in real solutions
  • Geochemistry and environmental chemistry

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