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Vant hoff factor of centimolal solution of K3[Fe(CN)6] is 3.333.calculate the degree dissociation of K3[(Fe(CN)6] is?
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Vant hoff factor of centimolal solution of K3[Fe(CN)6] is 3.333.calcul...
Calculation of Degree of Dissociation of K3[Fe(CN)6]
The Vant Hoff factor of a solution is defined as the ratio of the actual number of particles formed in a solution to the number of particles that would be present if the solute were completely dissociated in the solution. In this case, the Vant Hoff factor of K3[Fe(CN)6] is given as 3.333, which means that each formula unit of K3[Fe(CN)6] dissociates into 3.333 particles in the solution.
The degree of dissociation (α) of a solute is defined as the fraction of the total number of solute molecules that dissociate into ions in a solution. It is given by the formula:
α = (number of ions formed / initial number of solute molecules) x 100%
To calculate the degree of dissociation of K3[Fe(CN)6], we need to know the initial number of solute molecules in the solution. This can be obtained by dividing the number of moles of K3[Fe(CN)6] by the volume of the solution in liters.
Let us assume that we have a solution of K3[Fe(CN)6] with a concentration of 1 mol/L. The molar mass of K3[Fe(CN)6] is 329.26 g/mol, which means that 1 mol of K3[Fe(CN)6] weighs 329.26 g.
Therefore, the number of moles of K3[Fe(CN)6] in 1 liter of the solution is given as:
n = mass / molar mass = 1000 g / 329.26 g/mol = 3.038 mol
Now, we can calculate the initial number of solute molecules as:
N = n x Avogadro's number = 3.038 mol x 6.022 x 10^23/mol = 1.828 x 10^24 molecules
Next, we need to calculate the number of ions formed in the solution. Since each formula unit of K3[Fe(CN)6] dissociates into 3 ions, the total number of ions formed in the solution is:
nions = Vant Hoff factor x N = 3.333 x 1.828 x 10^24 = 6.094 x 10^24 ions
Finally, we can calculate the degree of dissociation as:
α = (number of ions formed / initial number of solute molecules) x 100%
= (6.094 x 10^24 / 1.828 x 10^24) x 100%
= 333.33%
Therefore, the degree of dissociation of K3[Fe(CN)6] is 333.33%. This means that about one-third of the K3[Fe(CN)6] molecules in the solution dissociate into ions.
The Vant Hoff factor of a solution is defined as the ratio of the actual number of particles formed in a solution to the number of particles that would be present if the solute were completely dissociated in the solution. In this case, the Vant Hoff factor of K3[Fe(CN)6] is given as 3.333, which means that each formula unit of K3[Fe(CN)6] dissociates into 3.333 particles in the solution.
The degree of dissociation (α) of a solute is defined as the fraction of the total number of solute molecules that dissociate into ions in a solution. It is given by the formula:
α = (number of ions formed / initial number of solute molecules) x 100%
To calculate the degree of dissociation of K3[Fe(CN)6], we need to know the initial number of solute molecules in the solution. This can be obtained by dividing the number of moles of K3[Fe(CN)6] by the volume of the solution in liters.
Let us assume that we have a solution of K3[Fe(CN)6] with a concentration of 1 mol/L. The molar mass of K3[Fe(CN)6] is 329.26 g/mol, which means that 1 mol of K3[Fe(CN)6] weighs 329.26 g.
Therefore, the number of moles of K3[Fe(CN)6] in 1 liter of the solution is given as:
n = mass / molar mass = 1000 g / 329.26 g/mol = 3.038 mol
Now, we can calculate the initial number of solute molecules as:
N = n x Avogadro's number = 3.038 mol x 6.022 x 10^23/mol = 1.828 x 10^24 molecules
Next, we need to calculate the number of ions formed in the solution. Since each formula unit of K3[Fe(CN)6] dissociates into 3 ions, the total number of ions formed in the solution is:
nions = Vant Hoff factor x N = 3.333 x 1.828 x 10^24 = 6.094 x 10^24 ions
Finally, we can calculate the degree of dissociation as:
α = (number of ions formed / initial number of solute molecules) x 100%
= (6.094 x 10^24 / 1.828 x 10^24) x 100%
= 333.33%
Therefore, the degree of dissociation of K3[Fe(CN)6] is 333.33%. This means that about one-third of the K3[Fe(CN)6] molecules in the solution dissociate into ions.
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Vant hoff factor of centimolal solution of K3[Fe(CN)6] is 3.333.calculate the degree dissociation of K3[(Fe(CN)6] is?
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Vant hoff factor of centimolal solution of K3[Fe(CN)6] is 3.333.calculate the degree dissociation of K3[(Fe(CN)6] is? for Class 12 2024 is part of Class 12 preparation. The Question and answers have been prepared according to the Class 12 exam syllabus. Information about Vant hoff factor of centimolal solution of K3[Fe(CN)6] is 3.333.calculate the degree dissociation of K3[(Fe(CN)6] is? covers all topics & solutions for Class 12 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Vant hoff factor of centimolal solution of K3[Fe(CN)6] is 3.333.calculate the degree dissociation of K3[(Fe(CN)6] is?.
Vant hoff factor of centimolal solution of K3[Fe(CN)6] is 3.333.calculate the degree dissociation of K3[(Fe(CN)6] is? for Class 12 2024 is part of Class 12 preparation. The Question and answers have been prepared according to the Class 12 exam syllabus. Information about Vant hoff factor of centimolal solution of K3[Fe(CN)6] is 3.333.calculate the degree dissociation of K3[(Fe(CN)6] is? covers all topics & solutions for Class 12 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Vant hoff factor of centimolal solution of K3[Fe(CN)6] is 3.333.calculate the degree dissociation of K3[(Fe(CN)6] is?.
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