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Osmotic Pressure given Volume and Concentration of Two Substances Calculator

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The Concentration of Particle 1 is moles per liter of volume of particle 1 in solution.Concentration of Particle 1 [C1]
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-10%
The Volume of particle 1 is the volume of particle 1 in solution.Volume of Particle 1 [V1]
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-10%
The Concentration of Particle 2 is moles per liter of volume of particle 2 in solution.Concentration of Particle 2 [C2]
+10%
-10%
The Volume of Particle 2 is the volume of particle 2 in solution.Volume of Particle 2 [V2]
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-10%
Temperature is the degree or intensity of heat present in a substance or object.Temperature [T]
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-10%
The Osmotic Pressure is the minimum pressure which needs to be applied to a solution to prevent the inward flow of its pure solvent across a semipermeable membrane.Osmotic Pressure given Volume and Concentration of Two Substances [π]
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Formula

Osmotic Pressure given Volume and Concentration of Two Substances

Formula
`"π" = ((("C"_{"1"}*"V"_{"1"})+("C"_{"2"}*"V"_{"2"}))*("[R]"*"T"))/("V"_{"1"}+"V"_{"2"})`

Example
`"2.031331Pa"=((("8.2E^-7mol/L"*"20L")+("1.89E^-7mol/L"*"0.005L"))*("[R]"*"298K"))/("20L"+"0.005L")`

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Osmotic Pressure given Volume and Concentration of Two Substances Solution

STEP 0: Pre-Calculation Summary
Formula Used
Osmotic Pressure = (((Concentration of Particle 1*Volume of Particle 1)+(Concentration of Particle 2*Volume of Particle 2))*([R]*Temperature))/(Volume of Particle 1+Volume of Particle 2)
π = (((C1*V1)+(C2*V2))*([R]*T))/(V1+V2)
This formula uses 1 Constants, 6 Variables
Constants Used
[R] - Universal gas constant Value Taken As 8.31446261815324
Variables Used
Osmotic Pressure - (Measured in Pascal) - The Osmotic Pressure is the minimum pressure which needs to be applied to a solution to prevent the inward flow of its pure solvent across a semipermeable membrane.
Concentration of Particle 1 - (Measured in Mole per Cubic Meter) - The Concentration of Particle 1 is moles per liter of volume of particle 1 in solution.
Volume of Particle 1 - (Measured in Liter) - The Volume of particle 1 is the volume of particle 1 in solution.
Concentration of Particle 2 - (Measured in Mole per Cubic Meter) - The Concentration of Particle 2 is moles per liter of volume of particle 2 in solution.
Volume of Particle 2 - (Measured in Liter) - The Volume of Particle 2 is the volume of particle 2 in solution.
Temperature - (Measured in Kelvin) - Temperature is the degree or intensity of heat present in a substance or object.
STEP 1: Convert Input(s) to Base Unit
Concentration of Particle 1: 8.2E-07 Mole per Liter --> 0.00082 Mole per Cubic Meter (Check conversion here)
Volume of Particle 1: 20 Liter --> 20 Liter No Conversion Required
Concentration of Particle 2: 1.89E-07 Mole per Liter --> 0.000189 Mole per Cubic Meter (Check conversion here)
Volume of Particle 2: 0.005 Liter --> 0.005 Liter No Conversion Required
Temperature: 298 Kelvin --> 298 Kelvin No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
π = (((C1*V1)+(C2*V2))*([R]*T))/(V1+V2) --> (((0.00082*20)+(0.000189*0.005))*([R]*298))/(20+0.005)
Evaluating ... ...
π = 2.03133132433174
STEP 3: Convert Result to Output's Unit
2.03133132433174 Pascal --> No Conversion Required
FINAL ANSWER
2.03133132433174 2.031331 Pascal <-- Osmotic Pressure
(Calculation completed in 00.004 seconds)
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Home » Chemistry » Solution and Colligative properties » Osmotic Pressure » Osmotic Pressure given Volume and Concentration of Two Substances

Credits

Created by Prerana Bakli
University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA
Prerana Bakli has created this Calculator and 800+ more calculators!
Verified by Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
Akshada Kulkarni has verified this Calculator and 900+ more calculators!

19 Osmotic Pressure Calculators

Osmotic Pressure given Volume and Concentration of Two Substances
Go Osmotic Pressure = (((Concentration of Particle 1*Volume of Particle 1)+(Concentration of Particle 2*Volume of Particle 2))*([R]*Temperature))/(Volume of Particle 1+Volume of Particle 2)
Van't Hoff Osmotic Pressure for Mixture of Two Solutions
Go Osmotic Pressure = ((Van't Hoff Factor of Particle 1*Concentration of Particle 1)+(Van't Hoff Factor of Particle 2*Concentration of Particle 2))*[R]*Temperature
Osmotic Pressure given Vapour Pressure
Go Osmotic Pressure = ((Vapour Pressure of Pure Solvent-Vapour Pressure of Solvent in Solution)*[R]*Temperature)/(Molar Volume*Vapour Pressure of Pure Solvent)
Osmotic Pressure given Volume and Osmotic Pressure of Two Substances
Go Osmotic Pressure = ((Osmotic Pressure of Particle 1*Volume of Particle 1)+(Osmotic Pressure of Particle 2*Volume of Particle 2))/([R]*Temperature)
Osmotic Pressure given Depression in Freezing Point
Go Osmotic Pressure = (Molar Enthalpy of Fusion*Depression in Freezing Point*Temperature)/(Molar Volume*(Solvent Freezing Point^2))
Van't Hoff Osmotic Pressure for Electrolyte
Go Osmotic Pressure = Van't Hoff Factor*Molar Concentration of Solute*Universal Gas Constant*Temperature
Osmotic Pressure given Concentration of Two Substances
Go Osmotic Pressure = (Concentration of Particle 1+Concentration of Particle 2)*[R]*Temperature
Relative Lowering of Vapour Pressure given Osmotic Pressure
Go Relative Lowering of Vapour Pressure = (Osmotic Pressure*Molar Volume)/([R]*Temperature)
Osmotic Pressure given Relative Lowering of Vapour Pressure
Go Osmotic Pressure = (Relative Lowering of Vapour Pressure*[R]*Temperature)/Molar Volume
Van't Hoff Factor given Osmotic Pressure
Go Van't Hoff Factor = Osmotic Pressure/(Molar Concentration of Solute*[R]*Temperature)
Temperature of Gas given Osmotic Pressure
Go Temperature = (Osmotic Pressure*Volume of Solution)/(Number of Moles of Solute*[R])
Moles of Solute given Osmotic Pressure
Go Number of Moles of Solute = (Osmotic Pressure*Volume of Solution)/([R]*Temperature)
Osmotic Pressure using Number of Moles and Volume of Solution
Go Osmotic Pressure = (Number of Moles of Solute*[R]*Temperature)/Volume of Solution
Volume of Solution given Osmotic Pressure
Go Volume of Solution = (Number of Moles of Solute*[R]*Temperature)/Osmotic Pressure
Total Concentration of Particles using Osmotic Pressure
Go Molar Concentration of Solute = Osmotic Pressure/([R]*Temperature)
Osmotic Pressure for Non Electrolyte
Go Osmotic Pressure = Molar Concentration of Solute*[R]*Temperature
Density of Solution given Osmotic Pressure
Go Density of Solution = Osmotic Pressure/([g]*Equilibrium Height)
Equilibrium Height given Osmotic Pressure
Go Equilibrium Height = Osmotic Pressure/([g]*Density of Solution)
Osmotic Pressure given Density of Solution
Go Osmotic Pressure = Density of Solution*[g]*Equilibrium Height

Osmotic Pressure given Volume and Concentration of Two Substances Formula

Osmotic Pressure = (((Concentration of Particle 1*Volume of Particle 1)+(Concentration of Particle 2*Volume of Particle 2))*([R]*Temperature))/(Volume of Particle 1+Volume of Particle 2)
π = (((C1*V1)+(C2*V2))*([R]*T))/(V1+V2)

Why osmotic pressure is important?

Osmotic pressure is of vital importance in biology as the cell's membrane is selective toward many of the solutes found in living organisms. When a cell is placed in a hypertonic solution, water actually flows out of the cell into the surrounding solution thereby causing the cells to shrink and lose its turgidity.

How to Calculate Osmotic Pressure given Volume and Concentration of Two Substances?

Osmotic Pressure given Volume and Concentration of Two Substances calculator uses Osmotic Pressure = (((Concentration of Particle 1*Volume of Particle 1)+(Concentration of Particle 2*Volume of Particle 2))*([R]*Temperature))/(Volume of Particle 1+Volume of Particle 2) to calculate the Osmotic Pressure, The Osmotic Pressure given Volume and Concentration of Two Substances is the minimum pressure which needs to be applied to a solution to prevent the inward flow of its pure solvent across a semipermeable membrane. It is also defined as the measure of the tendency of a solution to take in pure solvent by osmosis. Osmotic Pressure is denoted by π symbol.

How to calculate Osmotic Pressure given Volume and Concentration of Two Substances using this online calculator? To use this online calculator for Osmotic Pressure given Volume and Concentration of Two Substances, enter Concentration of Particle 1 (C1), Volume of Particle 1 (V1), Concentration of Particle 2 (C2), Volume of Particle 2 (V2) & Temperature (T) and hit the calculate button. Here is how the Osmotic Pressure given Volume and Concentration of Two Substances calculation can be explained with given input values -> 2.031331 = (((0.00082*0.02)+(0.000189*5E-06))*([R]*298))/(0.02+5E-06).

FAQ

What is Osmotic Pressure given Volume and Concentration of Two Substances?
The Osmotic Pressure given Volume and Concentration of Two Substances is the minimum pressure which needs to be applied to a solution to prevent the inward flow of its pure solvent across a semipermeable membrane. It is also defined as the measure of the tendency of a solution to take in pure solvent by osmosis and is represented as π = (((C1*V1)+(C2*V2))*([R]*T))/(V1+V2) or Osmotic Pressure = (((Concentration of Particle 1*Volume of Particle 1)+(Concentration of Particle 2*Volume of Particle 2))*([R]*Temperature))/(Volume of Particle 1+Volume of Particle 2). The Concentration of Particle 1 is moles per liter of volume of particle 1 in solution, The Volume of particle 1 is the volume of particle 1 in solution, The Concentration of Particle 2 is moles per liter of volume of particle 2 in solution, The Volume of Particle 2 is the volume of particle 2 in solution & Temperature is the degree or intensity of heat present in a substance or object.
How to calculate Osmotic Pressure given Volume and Concentration of Two Substances?
The Osmotic Pressure given Volume and Concentration of Two Substances is the minimum pressure which needs to be applied to a solution to prevent the inward flow of its pure solvent across a semipermeable membrane. It is also defined as the measure of the tendency of a solution to take in pure solvent by osmosis is calculated using Osmotic Pressure = (((Concentration of Particle 1*Volume of Particle 1)+(Concentration of Particle 2*Volume of Particle 2))*([R]*Temperature))/(Volume of Particle 1+Volume of Particle 2). To calculate Osmotic Pressure given Volume and Concentration of Two Substances, you need Concentration of Particle 1 (C1), Volume of Particle 1 (V1), Concentration of Particle 2 (C2), Volume of Particle 2 (V2) & Temperature (T). With our tool, you need to enter the respective value for Concentration of Particle 1, Volume of Particle 1, Concentration of Particle 2, Volume of Particle 2 & Temperature 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 Osmotic Pressure?
In this formula, Osmotic Pressure uses Concentration of Particle 1, Volume of Particle 1, Concentration of Particle 2, Volume of Particle 2 & Temperature. We can use 10 other way(s) to calculate the same, which is/are as follows -
  • Osmotic Pressure = ((Osmotic Pressure of Particle 1*Volume of Particle 1)+(Osmotic Pressure of Particle 2*Volume of Particle 2))/([R]*Temperature)
  • Osmotic Pressure = (Number of Moles of Solute*[R]*Temperature)/Volume of Solution
  • Osmotic Pressure = (Concentration of Particle 1+Concentration of Particle 2)*[R]*Temperature
  • Osmotic Pressure = Density of Solution*[g]*Equilibrium Height
  • Osmotic Pressure = ((Vapour Pressure of Pure Solvent-Vapour Pressure of Solvent in Solution)*[R]*Temperature)/(Molar Volume*Vapour Pressure of Pure Solvent)
  • Osmotic Pressure = (Molar Enthalpy of Fusion*Depression in Freezing Point*Temperature)/(Molar Volume*(Solvent Freezing Point^2))
  • Osmotic Pressure = (Relative Lowering of Vapour Pressure*[R]*Temperature)/Molar Volume
  • Osmotic Pressure = ((Van't Hoff Factor of Particle 1*Concentration of Particle 1)+(Van't Hoff Factor of Particle 2*Concentration of Particle 2))*[R]*Temperature
  • Osmotic Pressure = Van't Hoff Factor*Molar Concentration of Solute*Universal Gas Constant*Temperature
  • Osmotic Pressure = Molar Concentration of Solute*[R]*Temperature
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