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Ionic strength of bi-trivalent electrolyte Solution

STEP 0: Pre-Calculation Summary
Formula Used
ionic_strength = (1/2)*(2*Molality of cation*((Valencies of cation)^2)+3*Molality of anion*((Valencies of anion)^2))
I = (1/2)*(2*m+*((Z+)^2)+3*m-*((Z-)^2))
This formula uses 4 Variables
Variables Used
Molality of cation - The molality of cation is defined as the number of moles of cation per kg of the solvent. (Measured in Mole per Kilogram)
Valencies of cation- The Valencies of cation are the positive charge of the ion in an electrolyte.
Molality of anion - The Molality of anion is defined as the number of moles of anion per kg of solvent. (Measured in Mole per Kilogram)
Valencies of anion- The Valencies of anion are the negative charge of the ion in an electrolyte.
STEP 1: Convert Input(s) to Base Unit
Molality of cation: 0.1 Mole per Kilogram --> 0.1 Mole per Kilogram No Conversion Required
Valencies of cation: 1 --> No Conversion Required
Molality of anion: 0.2 Mole per Kilogram --> 0.2 Mole per Kilogram No Conversion Required
Valencies of anion: 1 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
I = (1/2)*(2*m+*((Z+)^2)+3*m-*((Z-)^2)) --> (1/2)*(2*0.1*((1)^2)+3*0.2*((1)^2))
Evaluating ... ...
I = 0.4
STEP 3: Convert Result to Output's Unit
0.4 Mole per Kilogram --> No Conversion Required
FINAL ANSWER
0.4 Mole per Kilogram <-- Ionic strength
(Calculation completed in 00.000 seconds)

9 Ionic strength Calculators

Ionic strength using Debey-Huckel limiting law
ionic_strength = (-(ln(Mean activity coefficient))/(Debye Huckel limiting law constant*(Charge number of ion species^2)))^2 Go
Ionic strength of uni-bivalent electrolyte
ionic_strength = (1/2)*(Molality of cation*((Valencies of cation)^2)+(2*Molality of anion*((Valencies of anion)^2))) Go
Ionic strength of bi-trivalent electrolyte
ionic_strength = (1/2)*(2*Molality of cation*((Valencies of cation)^2)+3*Molality of anion*((Valencies of anion)^2)) Go
Ionic strength for uni-univalent electrolyte
ionic_strength = (1/2)*(Molality of cation*((Valencies of cation)^2)+Molality of anion*((Valencies of anion)^2)) Go
Ionic strength for bi-bivalent electrolyte
ionic_strength = (1/2)*(Molality of cation*((Valencies of cation)^2)+Molality of anion*((Valencies of anion)^2)) Go
Ionic strength for bi-bivalent electrolyte if molality of cation and anion is same
ionic_strength = (4*Molality) Go
Ionic strength of bi-trivalent electrolyte if molality of cation and anion are same
ionic_strength = 15*Molality Go
Ionic strength of uni-bivalent electrolyte if molality of cation and anion are same
ionic_strength = 3*Molality Go
Ionic strength for uni-univalent electrolyte if molality of cation and anion is same
ionic_strength = Molality Go

Ionic strength of bi-trivalent electrolyte Formula

ionic_strength = (1/2)*(2*Molality of cation*((Valencies of cation)^2)+3*Molality of anion*((Valencies of anion)^2))
I = (1/2)*(2*m+*((Z+)^2)+3*m-*((Z-)^2))

What is Ionic Strength?

Ionic Strength of a solution is a measure of the electrical intensity due to the presence of ions in the solution. It is given as half of the sum of all the terms obtained by multiplying the molality of each ion by the square of its valency. In other words, ionic strength is the cumulative measure of both charges on the ion as well as its concentration in the solution. The concept of ionic strength is always applicable to strong electrolytes (i.e salts) and it cannot be applied to weak electrolytes.

How to Calculate Ionic strength of bi-trivalent electrolyte?

Ionic strength of bi-trivalent electrolyte calculator uses ionic_strength = (1/2)*(2*Molality of cation*((Valencies of cation)^2)+3*Molality of anion*((Valencies of anion)^2)) to calculate the Ionic strength, The Ionic strength of bi-trivalent electrolyte formula is defined as the half of the submission of molality and square of the valencies of the ions available in the solution. Here the molality of cation is taken twice and the molality of anion is taken thrice. Ionic strength and is denoted by I symbol.

How to calculate Ionic strength of bi-trivalent electrolyte using this online calculator? To use this online calculator for Ionic strength of bi-trivalent electrolyte, enter Molality of cation (m+), Valencies of cation (Z+), Molality of anion (m-) & Valencies of anion (Z-) and hit the calculate button. Here is how the Ionic strength of bi-trivalent electrolyte calculation can be explained with given input values -> 0.4 = (1/2)*(2*0.1*((1)^2)+3*0.2*((1)^2)).

FAQ

What is Ionic strength of bi-trivalent electrolyte?
The Ionic strength of bi-trivalent electrolyte formula is defined as the half of the submission of molality and square of the valencies of the ions available in the solution. Here the molality of cation is taken twice and the molality of anion is taken thrice and is represented as I = (1/2)*(2*m+*((Z+)^2)+3*m-*((Z-)^2)) or ionic_strength = (1/2)*(2*Molality of cation*((Valencies of cation)^2)+3*Molality of anion*((Valencies of anion)^2)). The molality of cation is defined as the number of moles of cation per kg of the solvent, The Valencies of cation are the positive charge of the ion in an electrolyte, The Molality of anion is defined as the number of moles of anion per kg of solvent & The Valencies of anion are the negative charge of the ion in an electrolyte.
How to calculate Ionic strength of bi-trivalent electrolyte?
The Ionic strength of bi-trivalent electrolyte formula is defined as the half of the submission of molality and square of the valencies of the ions available in the solution. Here the molality of cation is taken twice and the molality of anion is taken thrice is calculated using ionic_strength = (1/2)*(2*Molality of cation*((Valencies of cation)^2)+3*Molality of anion*((Valencies of anion)^2)). To calculate Ionic strength of bi-trivalent electrolyte, you need Molality of cation (m+), Valencies of cation (Z+), Molality of anion (m-) & Valencies of anion (Z-). With our tool, you need to enter the respective value for Molality of cation, Valencies of cation, Molality of anion & Valencies of anion and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Ionic strength?
In this formula, Ionic strength uses Molality of cation, Valencies of cation, Molality of anion & Valencies of anion. We can use 9 other way(s) to calculate the same, which is/are as follows -
  • ionic_strength = (1/2)*(Molality of cation*((Valencies of cation)^2)+Molality of anion*((Valencies of anion)^2))
  • ionic_strength = Molality
  • ionic_strength = (1/2)*(Molality of cation*((Valencies of cation)^2)+Molality of anion*((Valencies of anion)^2))
  • ionic_strength = (4*Molality)
  • ionic_strength = (1/2)*(Molality of cation*((Valencies of cation)^2)+(2*Molality of anion*((Valencies of anion)^2)))
  • ionic_strength = 3*Molality
  • ionic_strength = (1/2)*(2*Molality of cation*((Valencies of cation)^2)+3*Molality of anion*((Valencies of anion)^2))
  • ionic_strength = 15*Molality
  • ionic_strength = (-(ln(Mean activity coefficient))/(Debye Huckel limiting law constant*(Charge number of ion species^2)))^2
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