Prerana Bakli
Lady Brabourne College (LBC), Kolkata
Prerana Bakli has created this Calculator and 100+ more calculators!
Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
Akshada Kulkarni has verified this Calculator and 400+ more calculators!

11 Other formulas that you can solve using the same Inputs

Observed or Experimental value of colligative property when Van't Hoff factor is given
Experimental Value of Colligative Property=Van't Hoff Factor*Theoretical value of colligative property GO
Theoretical value of colligative property when Van't Hoff factor is given
Theoretical value of colligative property=Experimental Value of Colligative Property/Van't Hoff Factor GO
Van't Hoff Osmotic Pressure for an Electrolyte
Osmotic Pressure=Van't Hoff Factor*Molar Concentration Of Solute*[R]*Temperature GO
Theoretical number of particles when Van't Hoff factor is given
Theoretical number of particles=Observed number of particles/Van't Hoff Factor GO
Observed number of particles when Van't Hoff factor is given
Observed number of particles=Van't Hoff Factor*Theoretical number of particles GO
Experimental osmotic pressure when Van't Hoff factor is given
Experimental Osmotic Pressure=Van't Hoff Factor*Theoretical Osmotic Pressure GO
Degree of Association in terms of Van't Hoff Factor
Degree of Association=(Van't Hoff Factor-1)/((1/Number of Ions )-1) GO
Van't Hoff factor using Degree of Association
Van't Hoff Factor=1+(((1/Number of Ions )-1)*Degree of Association) GO
Van't Hoff factor using Degree of Dissociation
Van't Hoff Factor=1+((Number of Ions -1)*Degree of Dissociation) GO
Theoretical molality when Van't Hoff factor is given
Theoretical Molality=Observed Molality/Van't Hoff Factor GO
Observed molality when Van't Hoff factor is given
Observed Molality=Van't Hoff Factor*Theoretical Molality GO

11 Other formulas that calculate the same Output

Degree of dissociation for double reaction when equilibrium pressure is given
Degree of Dissociation=sqrt(Equilibrium constant for partial pressure /(Equilibrium constant for partial pressure +(4*Absolute Pressure))) GO
Degree of dissociation when equilibrium pressure is given
Degree of Dissociation=sqrt(Equilibrium constant for partial pressure /(Equilibrium constant for partial pressure +Absolute Pressure)) GO
Degree of dissociation using concentration of reaction
Degree of Dissociation=((Initial vapour density*Initial concentration)/(Equilibrium vapour density*Initial concentration))-1 GO
Degree of dissociation (α) when Ka and initial conc. is given for condition α << 1
Degree of Dissociation=sqrt(Dissociation constant of weak acid/Initial concentration) GO
Degree of dissociation (α) when Kb and initial conc. is given for condition α << 1
Degree of Dissociation=sqrt(Dissociation constant of weak base/Initial concentration) GO
Degree of dissociation when pressure increases during reaction
Degree of Dissociation=sqrt(Equilibrium constant for partial pressure /Pressure) GO
Degree of dissociation (α) when Ka and molar volume of weak acid is given for condition α << 1
Degree of Dissociation=sqrt(Dissociation constant of weak acid*Molar Volume) GO
Degree of dissociation (α) when Kb and molar volume of weak base is given for condition α << 1
Degree of Dissociation=sqrt(Dissociation constant of weak base*Molar Volume) GO
Degree of dissociation of reaction
Degree of Dissociation=Number of moles dissociated/Initial number of moles GO
Degree of dissociation
Degree of Dissociation=Molar Conductivity/Limiting Molar Conductivity GO
Degree of dissociation when total number of moles of reaction is given
Degree of Dissociation=1-(Total moles in reaction/Number of Moles) GO

Degree of Dissociation in terms of Van't Hoff Factor Formula

Degree of Dissociation=(Van't Hoff Factor-1)/(Number of Ions -1)
𝝰 =(i-1)/(n-1)
More formulas
Van't Hoff factor in terms of colligative property GO
Observed or Experimental value of colligative property when Van't Hoff factor is given GO
Theoretical value of colligative property when Van't Hoff factor is given GO
Van't Hoff Factor in terms of molality GO
Van't Hoff Factor in terms of number of particles GO
Van't Hoff factor in terms of Molar Mass GO
Van't Hoff factor using Degree of Association GO
Van't Hoff factor using Degree of Dissociation GO
Degree of Association in terms of Van't Hoff Factor GO
Observed number of particles when Van't Hoff factor is given GO
Theoretical number of particles when Van't Hoff factor is given GO
Observed molality when Van't Hoff factor is given GO
Theoretical molality when Van't Hoff factor is given GO
Van't Hoff factor in terms of experimental and theoretical osmotic pressure GO
Experimental osmotic pressure when Van't Hoff factor is given GO
Theoretical osmotic pressure when Van't Hoff factor is given GO
Formula Mass when Van't Hoff factor is given GO
Apparent Molar Mass when Van't Hoff factor is given GO

What is Degree of Dissociation?

Degree of Dissociation is defined as the fraction of the total number of molecules which associate or combine together resulting in the formation of a bigger molecules. It is unit less. The degree of dissociation is the phenomenon of generating current carrying free ions, which are dissociated from the fraction of solute at a given concentration.

How to Calculate Degree of Dissociation in terms of Van't Hoff Factor?

Degree of Dissociation in terms of Van't Hoff Factor calculator uses Degree of Dissociation=(Van't Hoff Factor-1)/(Number of Ions -1) to calculate the Degree of Dissociation, The Degree of Dissociation in terms of Van't Hoff Factor is the fraction of original solute molecules that have dissociated. It is usually indicated by the Greek symbol α. More accurately, degree of dissociation refers to the amount of solute dissociated into ions or radicals per mole. Degree of Dissociation and is denoted by 𝝰 symbol.

How to calculate Degree of Dissociation in terms of Van't Hoff Factor using this online calculator? To use this online calculator for Degree of Dissociation in terms of Van't Hoff Factor, enter Van't Hoff Factor (i) and Number of Ions (n) and hit the calculate button. Here is how the Degree of Dissociation in terms of Van't Hoff Factor calculation can be explained with given input values -> 0 = (1-1)/(2-1).

FAQ

What is Degree of Dissociation in terms of Van't Hoff Factor?
The Degree of Dissociation in terms of Van't Hoff Factor is the fraction of original solute molecules that have dissociated. It is usually indicated by the Greek symbol α. More accurately, degree of dissociation refers to the amount of solute dissociated into ions or radicals per mole and is represented as 𝝰 =(i-1)/(n-1) or Degree of Dissociation=(Van't Hoff Factor-1)/(Number of Ions -1). A Van't Hoff Factor is the ratio of observed colligative property to theoretical colligative property and The Number of Ions is the number of ions formed from one formula unit of the substance.
How to calculate Degree of Dissociation in terms of Van't Hoff Factor?
The Degree of Dissociation in terms of Van't Hoff Factor is the fraction of original solute molecules that have dissociated. It is usually indicated by the Greek symbol α. More accurately, degree of dissociation refers to the amount of solute dissociated into ions or radicals per mole is calculated using Degree of Dissociation=(Van't Hoff Factor-1)/(Number of Ions -1). To calculate Degree of Dissociation in terms of Van't Hoff Factor, you need Van't Hoff Factor (i) and Number of Ions (n). With our tool, you need to enter the respective value for Van't Hoff Factor and Number of Ions 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 Degree of Dissociation?
In this formula, Degree of Dissociation uses Van't Hoff Factor and Number of Ions . We can use 11 other way(s) to calculate the same, which is/are as follows -
  • Degree of Dissociation=Molar Conductivity/Limiting Molar Conductivity
  • Degree of Dissociation=sqrt(Equilibrium constant for partial pressure /(Equilibrium constant for partial pressure +Absolute Pressure))
  • Degree of Dissociation=sqrt(Equilibrium constant for partial pressure /(Equilibrium constant for partial pressure +(4*Absolute Pressure)))
  • Degree of Dissociation=Number of moles dissociated/Initial number of moles
  • Degree of Dissociation=1-(Total moles in reaction/Number of Moles)
  • Degree of Dissociation=sqrt(Equilibrium constant for partial pressure /Pressure)
  • Degree of Dissociation=sqrt(Dissociation constant of weak acid/Initial concentration)
  • Degree of Dissociation=sqrt(Dissociation constant of weak acid*Molar Volume)
  • Degree of Dissociation=sqrt(Dissociation constant of weak base/Initial concentration)
  • Degree of Dissociation=sqrt(Dissociation constant of weak base*Molar Volume)
  • Degree of Dissociation=((Initial vapour density*Initial concentration)/(Equilibrium vapour density*Initial concentration))-1
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