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Dimensionless Henry Solubility Calculator

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Important Formulas of Gaseous State
Concentration of Species in Aqueous Phase is the concentration of species in a homogeneous part of a heterogeneous system that consists of water or a solution in water of a substance.Concentration of Species in Aqueous Phase [ca]
+10%
-10%
Concentration of Species in Gaseous Phase is the abundance of a species divided by the total volume in gaseous phase.Concentration of Species in Gaseous Phase [cg]
+10%
-10%
Dimensionless Henry Solubility is Henry solubility can also be expressed as the dimensionless ratio between the aqueous-phase concentration of a species and its gas-phase concentration.Dimensionless Henry Solubility [Hcc]
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Formula

Dimensionless Henry Solubility

Formula
`"H"^{"cc"} = "c"_{"a"}/"c"_{"g"}`

Example
`"10"="0.1M"/"0.01M"`

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Dimensionless Henry Solubility Solution

STEP 0: Pre-Calculation Summary
Formula Used
Dimensionless Henry Solubility = Concentration of Species in Aqueous Phase/Concentration of Species in Gaseous Phase
Hcc = ca/cg
This formula uses 3 Variables
Variables Used
Dimensionless Henry Solubility - Dimensionless Henry Solubility is Henry solubility can also be expressed as the dimensionless ratio between the aqueous-phase concentration of a species and its gas-phase concentration.
Concentration of Species in Aqueous Phase - (Measured in Mole per Cubic Meter) - Concentration of Species in Aqueous Phase is the concentration of species in a homogeneous part of a heterogeneous system that consists of water or a solution in water of a substance.
Concentration of Species in Gaseous Phase - (Measured in Mole per Cubic Meter) - Concentration of Species in Gaseous Phase is the abundance of a species divided by the total volume in gaseous phase.
STEP 1: Convert Input(s) to Base Unit
Concentration of Species in Aqueous Phase: 0.1 Molar(M) --> 100 Mole per Cubic Meter (Check conversion ​here)
Concentration of Species in Gaseous Phase: 0.01 Molar(M) --> 10 Mole per Cubic Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Hcc = ca/cg --> 100/10
Evaluating ... ...
Hcc = 10
STEP 3: Convert Result to Output's Unit
10 --> No Conversion Required
FINAL ANSWER
10 <-- Dimensionless Henry Solubility
(Calculation completed in 00.004 seconds)
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7 Henry's law Calculators

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

18 Important Formulas of Gaseous State Calculators

Final Volume of Gas by Charles's law
​ Go Final Volume of Gas = (Initial Volume of Gas/Initial Temperature of Gas)*Final Temperature of Gas for Charles's law
Final Temperature by Charles's Law
​ Go Final Temperature of Gas for Charles's law = (Initial Temperature of Gas*Final Volume of Gas)/Initial Volume of Gas
Final Pressure of Gas by Boyle's Law
​ Go Final Pressure of Gas for Boyle's law = (Initial Pressure of Gas*Initial Volume of Gas)/Final Volume of Gas
Final Volume of Gas from Boyle's Law
​ Go Final Volume of Gas = (Initial Pressure of Gas*Initial Volume of Gas)/Final Pressure of Gas for Boyle's law
Molar Mixing Ratio in Aqueous Phase by Henry Solubility
​ Go Molar Mixing Ratio in Aqueous Phase = Henry Solubility via Aqueous-Phase Mixing Ratio*Partial Pressure of that Species in Gas Phase
Final Temperature by Gay Lussac's law
​ Go Final Temperature of Gas = (Initial Temperature of Gas*Final Pressure of Gas)/Initial Pressure of Gas
Final Pressure by Gay Lussac's law
​ Go Final Pressure of Gas = (Initial Pressure of Gas*Final Temperature of Gas)/Initial Temperature of Gas
Dimensionless Henry Solubility
​ Go Dimensionless Henry Solubility = Concentration of Species in Aqueous Phase/Concentration of Species in Gaseous Phase
Final Number of Moles of Gas by Avogadro's Law
​ 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
​ Go Final Volume of Gas = (Initial Volume of Gas/Initial Moles of Gas)*Final Moles of Gas
Concentration of Species in Aqueous Phase by Henry Solubility
​ Go Concentration of Species in Aqueous Phase = Henry Solubility*Partial Pressure of that Species in Gas Phase
Partial Pressure of Species in Gas Phase by Henry Solubility
​ Go Partial Pressure of that Species in Gas Phase = Concentration of Species in Aqueous Phase/Henry Solubility
Volume at Temperature t Degree Celsius by Charles's law
​ Go Volume at given Temperature = Volume at Zero Degree Celsius*((273+Temperature in Degree Celsius)/273)
Mass of Molecule of Substance using Avogadro's Number
​ Go Mass of 1 Molecule of Substance = Molar Mass/[Avaga-no]
Mass of Atom of Element using Avogadro's Number
​ Go Mass of 1 Atom of Element = Gram Atomic Mass/[Avaga-no]
Partial Pressure of Gas by Dalton's law
​ Go Partial Pressure = (Total Pressure*Mole Fraction)
Mole Fraction of Gas by Dalton's law
​ Go Mole Fraction = (Partial Pressure/Total Pressure)
Total Gas Pressure by Dalton's law
​ Go Total Pressure = (Partial Pressure/Mole Fraction)

7 Henry's law Calculators

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

Dimensionless Henry Solubility Formula

Dimensionless Henry Solubility = Concentration of Species in Aqueous Phase/Concentration of Species in Gaseous Phase
Hcc = ca/cg

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 Dimensionless Henry Solubility?

Dimensionless Henry Solubility calculator uses Dimensionless Henry Solubility = Concentration of Species in Aqueous Phase/Concentration of Species in Gaseous Phase to calculate the Dimensionless Henry Solubility, The Dimensionless Henry Solubility formula is defined as the dimensionless ratio between the aqueous-phase concentration of a species and its gas-phase concentration. It is dimensionless. Dimensionless Henry Solubility is denoted by Hcc symbol.

How to calculate Dimensionless Henry Solubility using this online calculator? To use this online calculator for Dimensionless Henry Solubility, enter Concentration of Species in Aqueous Phase (ca) & Concentration of Species in Gaseous Phase (cg) and hit the calculate button. Here is how the Dimensionless Henry Solubility calculation can be explained with given input values -> 0.01 = 100/10.

FAQ

What is Dimensionless Henry Solubility?
The Dimensionless Henry Solubility formula is defined as the dimensionless ratio between the aqueous-phase concentration of a species and its gas-phase concentration. It is dimensionless and is represented as Hcc = ca/cg or Dimensionless Henry Solubility = Concentration of Species in Aqueous Phase/Concentration of Species in Gaseous Phase. Concentration of Species in Aqueous Phase is the concentration of species in a homogeneous part of a heterogeneous system that consists of water or a solution in water of a substance & Concentration of Species in Gaseous Phase is the abundance of a species divided by the total volume in gaseous phase.
How to calculate Dimensionless Henry Solubility?
The Dimensionless Henry Solubility formula is defined as the dimensionless ratio between the aqueous-phase concentration of a species and its gas-phase concentration. It is dimensionless is calculated using Dimensionless Henry Solubility = Concentration of Species in Aqueous Phase/Concentration of Species in Gaseous Phase. To calculate Dimensionless Henry Solubility, you need Concentration of Species in Aqueous Phase (ca) & Concentration of Species in Gaseous Phase (cg). With our tool, you need to enter the respective value for Concentration of Species in Aqueous Phase & Concentration of Species in Gaseous 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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