Excess Pressure given Osmotic Coefficient Calculator

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✖The Osmotic Coefficient is the ratio of total pressure to the ideal pressure of the solution.ⓘ Osmotic Coefficient [Φ]			+10% -10%
✖The Ideal Pressure is defined as the pressure of the ideal solution.ⓘ Ideal Pressure [π₀]			+10% -10%

✖Excess Osmotic Pressure is defined as the minimum pressure that must be applied to a solution to halt the flow of solvent molecules through a semipermeable membrane (osmosis).ⓘ Excess Pressure given Osmotic Coefficient [π]

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Formula

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Excess Pressure given Osmotic Coefficient

Formula

`"π" = ("Φ"-1)*"π"_{"0"}`

Example

`"200at"=("5"-1)*"50at"`

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Excess Pressure given Osmotic Coefficient Solution

STEP 0: Pre-Calculation Summary

Formula Used

Excess Osmotic Pressure = (Osmotic Coefficient-1)*Ideal Pressure
π = (Φ-1)*π₀
This formula uses 3 Variables

Variables Used

Excess Osmotic Pressure - (Measured in Pascal) - Excess Osmotic Pressure is defined as the minimum pressure that must be applied to a solution to halt the flow of solvent molecules through a semipermeable membrane (osmosis).
Osmotic Coefficient - The Osmotic Coefficient is the ratio of total pressure to the ideal pressure of the solution.
Ideal Pressure - (Measured in Pascal) - The Ideal Pressure is defined as the pressure of the ideal solution.

STEP 1: Convert Input(s) to Base Unit

Osmotic Coefficient: 5 --> No Conversion Required
Ideal Pressure: 50 Atmosphere Technical --> 4903325 Pascal (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

π = (Φ-1)*π₀ --> (5-1)*4903325

Evaluating ... ...

π = 19613300

STEP 3: Convert Result to Output's Unit

19613300 Pascal -->200 Atmosphere Technical (Check conversion here)

FINAL ANSWER

200 Atmosphere Technical <-- Excess Osmotic Pressure

(Calculation completed in 00.004 seconds)

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Created by Prashant Singh

K J Somaiya College of science (K J Somaiya), Mumbai

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Mass of Metal to be Deposited

Go Mass to be Deposited = (Molecular Weight*Electric Current*Time)/(N Factor*[Faraday])

Kohlrausch Law

Go Molar Conductivity = Limiting Molar Conductivity-(Kohlrausch Coefficient*sqrt(Concentration of Electrolyte))

Actual Mass given Current Efficiency

Go Actual Mass Deposited = ((Current Efficiency*Theoretical Mass Deposited)/100)

Current Efficiency

Go Current Efficiency = (Actual Mass Deposited/Theoretical Mass Deposited)*100

Solubility

Go Solubility = Specific Conductance*1000/Limiting Molar Conductivity

Osmotic Coefficient given Ideal and Excess Pressure

Go Osmotic Coefficient = 1+(Excess Osmotic Pressure/Ideal Pressure)

Excess Pressure given Osmotic Coefficient

Go Excess Osmotic Pressure = (Osmotic Coefficient-1)*Ideal Pressure

Ideal Pressure given Osmotic Coefficient

Go Ideal Pressure = Excess Osmotic Pressure/(Osmotic Coefficient-1)

Solubility Product

Go Solubility Product = Molar Solubility^2

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Mass of Metal to be Deposited

Go Mass to be Deposited = (Molecular Weight*Electric Current*Time)/(N Factor*[Faraday])

Kohlrausch Law

Go Molar Conductivity = Limiting Molar Conductivity-(Kohlrausch Coefficient*sqrt(Concentration of Electrolyte))

Resistance given Distance between Electrode and Area of Cross-Section of Electrode

Go Resistance = (Resistivity)*(Distance between Electrodes/Electrode Cross-sectional Area)

Electrode Cross-Section Area given Resistance and Resistivity

Go Electrode Cross-sectional Area = (Resistivity*Distance between Electrodes)/Resistance

Distance between Electrode given Resistance and Resistivity

Go Distance between Electrodes = (Resistance*Electrode Cross-sectional Area)/Resistivity

Resistivity

Go Resistivity = Resistance*Electrode Cross-sectional Area/Distance between Electrodes

Current Efficiency

Go Current Efficiency = (Actual Mass Deposited/Theoretical Mass Deposited)*100

Solubility

Go Solubility = Specific Conductance*1000/Limiting Molar Conductivity

Excess Pressure given Osmotic Coefficient

Go Excess Osmotic Pressure = (Osmotic Coefficient-1)*Ideal Pressure

Ideal Pressure given Osmotic Coefficient

Go Ideal Pressure = Excess Osmotic Pressure/(Osmotic Coefficient-1)

Cell Constant given Resistance and Resistivity

Go Cell Constant = (Resistance/Resistivity)

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Go Resistance = (Resistivity*Cell Constant)

Solubility Product

Go Solubility Product = Molar Solubility^2

Resistivity given Specific Conductance

Go Resistivity = 1/Specific Conductance

Resistance given Conductance

Go Resistance = 1/Conductance

Excess Pressure given Osmotic Coefficient Formula

Excess Osmotic Pressure = (Osmotic Coefficient-1)*Ideal Pressure
π = (Φ-1)*π₀

What is Debye–Huckel limiting law?

The chemists Peter Debye and Erich Hückel noticed that solutions that contain ionic solutes do not behave ideally even at very low concentrations. So, while the concentration of the solutes is fundamental to the calculation of the dynamics of a solution, they theorized that an extra factor that they termed gamma is necessary to the calculation of the activity coefficients of the solution. Hence they developed the Debye–Hückel equation and Debye–Hückel limiting law. The activity is only proportional to the concentration and is altered by a factor known as the activity coefficient. This factor takes into account the interaction energy of ions in the solution.

How to Calculate Excess Pressure given Osmotic Coefficient?

Excess Pressure given Osmotic Coefficient calculator uses Excess Osmotic Pressure = (Osmotic Coefficient-1)*Ideal Pressure to calculate the Excess Osmotic Pressure, The Excess Pressure given Osmotic Coefficient formula is defined as the product ideal pressure to the osmotic pressure minus one. Excess Osmotic Pressure is denoted by π symbol.

How to calculate Excess Pressure given Osmotic Coefficient using this online calculator? To use this online calculator for Excess Pressure given Osmotic Coefficient, enter Osmotic Coefficient (Φ) & Ideal Pressure (π₀) and hit the calculate button. Here is how the Excess Pressure given Osmotic Coefficient calculation can be explained with given input values -> 8.2E-5 = (5-1)*4903325.

FAQ

What is Excess Pressure given Osmotic Coefficient?

The Excess Pressure given Osmotic Coefficient formula is defined as the product ideal pressure to the osmotic pressure minus one and is represented as π = (Φ-1)*π₀ or Excess Osmotic Pressure = (Osmotic Coefficient-1)*Ideal Pressure. The Osmotic Coefficient is the ratio of total pressure to the ideal pressure of the solution & The Ideal Pressure is defined as the pressure of the ideal solution.

How to calculate Excess Pressure given Osmotic Coefficient?

The Excess Pressure given Osmotic Coefficient formula is defined as the product ideal pressure to the osmotic pressure minus one is calculated using Excess Osmotic Pressure = (Osmotic Coefficient-1)*Ideal Pressure. To calculate Excess Pressure given Osmotic Coefficient, you need Osmotic Coefficient (Φ) & Ideal Pressure (π₀). With our tool, you need to enter the respective value for Osmotic Coefficient & Ideal Pressure and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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