An equation relating the limiting molar conductivity Λm 0 (see Kohlrausch's law) to the ionic diffusion coefficients, devised by Nernst and Albert Einstein. The Nernst-Einstein equation is Λm 0=(F 2/RT)(v+ z+ 2 D++v– z– 2 D–), where F is the Faraday constant, R is the gas constant, T is the thermodynamic temperature, v+ and v– are the number of cations and anions per formula unit of electrolyte, z+ and z– are the valences of the ions, and D+ and D– are the diffusion coefficients of the ions. An application of the Nernst-Einstein equation is to calculate the ionic diffusion coefficients from experimental determinations of conductivity.
Λm 0=(F 2/RT)(v+ z+ 2 D++v– z– 2 D–)
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t is the significance of Z-transform
It is the general form of a quadratic equation.
It is the mechanical equivalent of heat.
They are frequently used in Engineering applications.
it is nothing but just a type of force.
There is no significance at all.
physical significance of hall coefficient
t is the significance of Z-transform
That would probably be something like a "physical equation".That would probably be something like a "physical equation".That would probably be something like a "physical equation".That would probably be something like a "physical equation".
It is the general form of a quadratic equation.
No. the zero vector has no direction, therefore it has no significance.
The equation relates the electrical conductivity to the diffusivity of its anion and cation constituents. While electrical conductivity is relatively simple to measure, diffusivity is a bit more complicated. Measuring the electrical conductivity of a solution or melt one can study materials properties and interaction.
I. Drogin has written: 'Physical testing- classification of physical tests and their significance'
It is the mechanical equivalent of heat.
They are frequently used in Engineering applications.
Scientists used it to develop Nuclear Power