Kf = Freezing Point Depression Coefficient ; M = Molecular Weight of the pure solvent ; R = Gas Constant ; T= Freezing-Point of the pure solvent ; ΔHfus = Heat of Fusion ;
π= Osmotic Pressure ; c= Concentration ; T = Temperature
μ = Chemical Potential of a Solution ; μo= Chemical Potential of the pure solvent ; T = Temperature ; R= Gas Constant ; x= Mole Fraction of the Solvent ;
F= Number of Variables ; C= Number of Components ; P= Number of Phases;
Pin = Pressure Inside the Curved Surface ; Pout = Pressure Outside the Curved Surface ; γ = Surface Tension ; r = Radious of Curvature of the Curved Surface ;
Re = Reynolds Number ; r = The diameter or length (basically length of the shape of the object);
d = The density of the fluid; v = The velocity of the object; μ = Viscosity of the fluid;
M=Molecular Weight; d= density; γ= Surface Tension ; k=Eotvos-Ramsay Coefficient ; tc= Critical Temperature ; t= System Temperature
F= Drag Force ; η = Viscosity Coefficient ; r= Radius of the Particle ; v = Relative velocity of the Particle ;
Λoeq = Equivalence Conductivity at infinite dilution. λo+ & λ o- = Equivalence Conductivity of Cation and Anion;