Molar Mixing Ratio in Aqueous Phase by Henry Solubility Solution

STEP 0: Pre-Calculation Summary
Formula Used
Molar Mixing Ratio in Aqueous Phase = Henry Solubility via Aqueous-Phase Mixing Ratio*Partial Pressure of that Species in Gas Phase
x = Hxp*Pspecies
This formula uses 3 Variables
Variables Used
Molar Mixing Ratio in Aqueous Phase - Molar Mixing Ratio in Aqueous Phase is the abundance of one component of a mixture relative to that of all other components.
Henry Solubility via Aqueous-Phase Mixing Ratio - (Measured in Per Pascal) - Henry Solubility via Aqueous-Phase Mixing Ratio is ratio between the molar mixing ratio in the aqueous phase and partial pressure.
Partial Pressure of that Species in Gas Phase - (Measured in Pascal) - Partial Pressure of that Species in Gas Phase is a measure of thermodynamic activity of the gas's molecules.
STEP 1: Convert Input(s) to Base Unit
Henry Solubility via Aqueous-Phase Mixing Ratio: 10 Per Pascal --> 10 Per Pascal No Conversion Required
Partial Pressure of that Species in Gas Phase: 10 Pascal --> 10 Pascal No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
x = Hxp*Pspecies --> 10*10
Evaluating ... ...
x = 100
STEP 3: Convert Result to Output's Unit
100 --> No Conversion Required
FINAL ANSWER
100 <-- Molar Mixing Ratio in Aqueous Phase
(Calculation completed in 00.004 seconds)

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Created by Soupayan banerjee
National University of Judicial Science (NUJS), Kolkata
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Henry's law Calculators

Concentration of Species in Gaseous Phase by Dimensionless Henry Solubility
​ LaTeX ​ Go Concentration of Species in Gaseous Phase = Concentration of Species in Aqueous Phase/Dimensionless Henry Solubility
Dimensionless Henry Solubility
​ LaTeX ​ Go Dimensionless Henry Solubility = Concentration of Species in Aqueous Phase/Concentration of Species in Gaseous Phase
Concentration of Species in Aqueous Phase by Henry Solubility
​ LaTeX ​ Go Concentration of Species in Aqueous Phase = Henry Solubility*Partial Pressure of that Species in Gas Phase
Henry Solubility given Concentration
​ LaTeX ​ Go Henry Solubility = Concentration of Species in Aqueous Phase/Partial Pressure of that Species in Gas Phase

Important Formulas of Gaseous State Calculators

Final Number of Moles of Gas by Avogadro's Law
​ LaTeX ​ Go Final Moles of Gas = Final Volume of Gas/(Initial Volume of Gas/Initial Moles of Gas)
Final Volume of Gas by Avogadro's Law
​ LaTeX ​ Go Final Volume of Gas = (Initial Volume of Gas/Initial Moles of Gas)*Final Moles of Gas
Mass of Molecule of Substance using Avogadro's Number
​ LaTeX ​ Go Mass of 1 Molecule of Substance = Molar Mass/[Avaga-no]
Mass of Atom of Element using Avogadro's Number
​ LaTeX ​ Go Mass of 1 Atom of Element = Gram Atomic Mass/[Avaga-no]

Henry's law Calculators

Henry Solubility via Aqueous-Phase Mixing Ratio
​ LaTeX ​ Go Henry Solubility via Aqueous-Phase Mixing Ratio = Molar Mixing Ratio in Aqueous Phase/Partial Pressure of that Species in Gas Phase
Dimensionless Henry Solubility
​ LaTeX ​ Go Dimensionless Henry Solubility = Concentration of Species in Aqueous Phase/Concentration of Species in Gaseous Phase
Concentration of Species in Aqueous Phase by Henry Solubility
​ LaTeX ​ Go Concentration of Species in Aqueous Phase = Henry Solubility*Partial Pressure of that Species in Gas Phase
Henry Solubility given Concentration
​ LaTeX ​ Go Henry Solubility = Concentration of Species in Aqueous Phase/Partial Pressure of that Species in Gas Phase

Molar Mixing Ratio in Aqueous Phase by Henry Solubility Formula

​LaTeX ​Go
Molar Mixing Ratio in Aqueous Phase = Henry Solubility via Aqueous-Phase Mixing Ratio*Partial Pressure of that Species in Gas Phase
x = Hxp*Pspecies

What is Henry's Law?

In physical chemistry, Henry's law is a gas law that states that the amount of dissolved gas in a liquid is proportional to its partial pressure above the liquid. The proportionality factor is called Henry's law constant. It was formulated by the English chemist William Henry, who studied the topic in the early 19th century. In his publication about the quantity of gases absorbed by water.

How to Calculate Molar Mixing Ratio in Aqueous Phase by Henry Solubility?

Molar Mixing Ratio in Aqueous Phase by Henry Solubility calculator uses Molar Mixing Ratio in Aqueous Phase = Henry Solubility via Aqueous-Phase Mixing Ratio*Partial Pressure of that Species in Gas Phase to calculate the Molar Mixing Ratio in Aqueous Phase, The Molar Mixing Ratio in Aqueous Phase by Henry Solubility formula is defined as measure of the number of moles of the gas divided by the total number of moles. Molar Mixing Ratio in Aqueous Phase is denoted by x symbol.

How to calculate Molar Mixing Ratio in Aqueous Phase by Henry Solubility using this online calculator? To use this online calculator for Molar Mixing Ratio in Aqueous Phase by Henry Solubility, enter Henry Solubility via Aqueous-Phase Mixing Ratio (Hxp) & Partial Pressure of that Species in Gas Phase (Pspecies) and hit the calculate button. Here is how the Molar Mixing Ratio in Aqueous Phase by Henry Solubility calculation can be explained with given input values -> 100 = 10*10.

FAQ

What is Molar Mixing Ratio in Aqueous Phase by Henry Solubility?
The Molar Mixing Ratio in Aqueous Phase by Henry Solubility formula is defined as measure of the number of moles of the gas divided by the total number of moles and is represented as x = Hxp*Pspecies or Molar Mixing Ratio in Aqueous Phase = Henry Solubility via Aqueous-Phase Mixing Ratio*Partial Pressure of that Species in Gas Phase. Henry Solubility via Aqueous-Phase Mixing Ratio is ratio between the molar mixing ratio in the aqueous phase and partial pressure & Partial Pressure of that Species in Gas Phase is a measure of thermodynamic activity of the gas's molecules.
How to calculate Molar Mixing Ratio in Aqueous Phase by Henry Solubility?
The Molar Mixing Ratio in Aqueous Phase by Henry Solubility formula is defined as measure of the number of moles of the gas divided by the total number of moles is calculated using Molar Mixing Ratio in Aqueous Phase = Henry Solubility via Aqueous-Phase Mixing Ratio*Partial Pressure of that Species in Gas Phase. To calculate Molar Mixing Ratio in Aqueous Phase by Henry Solubility, you need Henry Solubility via Aqueous-Phase Mixing Ratio (Hxp) & Partial Pressure of that Species in Gas Phase (Pspecies). With our tool, you need to enter the respective value for Henry Solubility via Aqueous-Phase Mixing Ratio & Partial Pressure of that Species in Gas Phase 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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