Supersaturation based on Concentration of Species A and B along with Solubility Product Solution

STEP 0: Pre-Calculation Summary
Formula Used
Supersaturation Ratio = ((Concentration of Specie A^Stochiometric Value for A)*((Concentration of specie B^Stochiometric Value for B))/Solubility Product)^(1/(Stochiometric Value for A+Stochiometric Value for B))
S = ((CA^x)*((CB^y))/KC)^(1/(x+y))
This formula uses 6 Variables
Variables Used
Supersaturation Ratio - Supersaturation Ratio quantifies how much a solution exceeds its equilibrium solubility with respect to a particular solute at a given temperature and pressure.
Concentration of Specie A - (Measured in Mole per Cubic Meter) - Concentration of specie A is dependent on the solubility product constant and the concentration of specie B (the anion) in the solution.
Stochiometric Value for A - Stochiometric Value for A is the the number of moles of the cation, M, produced when one mole of the ionic compound AxBy(s), dissolves in water.
Concentration of specie B - (Measured in Mole per Cubic Meter) - Concentration of specie B is dependent on the solubility product constant and the concentration of specie B (the anion) in the solution.
Stochiometric Value for B - Stochiometric Value for B is defined as the number of moles of the Anion B produced when one mole of the ionic compound, AxBy(s), dissolves in water.
Solubility Product - Solubility product represents the equilibrium between a sparingly soluble ionic compound and its dissociated ions in a saturated solution at a specific temperature.
STEP 1: Convert Input(s) to Base Unit
Concentration of Specie A: 1.45 Mole per Cubic Meter --> 1.45 Mole per Cubic Meter No Conversion Required
Stochiometric Value for A: 4 --> No Conversion Required
Concentration of specie B: 4.25 Mole per Cubic Meter --> 4.25 Mole per Cubic Meter No Conversion Required
Stochiometric Value for B: 3 --> No Conversion Required
Solubility Product: 338.12 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
S = ((CA^x)*((CB^y))/KC)^(1/(x+y)) --> ((1.45^4)*((4.25^3))/338.12)^(1/(4+3))
Evaluating ... ...
S = 1.00051589195196
STEP 3: Convert Result to Output's Unit
1.00051589195196 --> No Conversion Required
FINAL ANSWER
1.00051589195196 1.000516 <-- Supersaturation Ratio
(Calculation completed in 00.020 seconds)

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Created by Rishi Vadodaria
Malviya National Institute Of Technology (MNIT JAIPUR ), JAIPUR
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DJ Sanghvi College of Engineering (DJSCE), Mumbai
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Supersaturation based on Concentration of Species A and B along with Solubility Product Formula

​LaTeX ​Go
Supersaturation Ratio = ((Concentration of Specie A^Stochiometric Value for A)*((Concentration of specie B^Stochiometric Value for B))/Solubility Product)^(1/(Stochiometric Value for A+Stochiometric Value for B))
S = ((CA^x)*((CB^y))/KC)^(1/(x+y))

What is Crystallization?

Crystallization is a process in chemistry and material science that involves the formation of solid, ordered structures called crystals from a liquid, gas, or even a supersaturated solution. During crystallization, atoms, ions, or molecules in the liquid or gas come together in a highly organized and repeating pattern, forming a solid material with a characteristic geometric shape and well-defined properties.

What is the Significance of Supersaturation Ratio And Solubility Product in Crystallization?

Solubility Product is essential because it helps predict whether or not a particular compound will precipitate and form crystals when a solution becomes saturated with the compound. When the ion product exceeds the solubility product constant for a given compound, the excess ions will combine to form solid crystals, leading to crystallization. Conversely, if the ion product is less than, the solution remains unsaturated, and no crystallization occurs.

How to Calculate Supersaturation based on Concentration of Species A and B along with Solubility Product?

Supersaturation based on Concentration of Species A and B along with Solubility Product calculator uses Supersaturation Ratio = ((Concentration of Specie A^Stochiometric Value for A)*((Concentration of specie B^Stochiometric Value for B))/Solubility Product)^(1/(Stochiometric Value for A+Stochiometric Value for B)) to calculate the Supersaturation Ratio, The Supersaturation based on Concentration of Species A and B along with Solubility Product formula is defined as the driving force for the formation of crystals. Supersaturation Ratio is denoted by S symbol.

How to calculate Supersaturation based on Concentration of Species A and B along with Solubility Product using this online calculator? To use this online calculator for Supersaturation based on Concentration of Species A and B along with Solubility Product, enter Concentration of Specie A (CA), Stochiometric Value for A (x), Concentration of specie B (CB), Stochiometric Value for B (y) & Solubility Product (KC) and hit the calculate button. Here is how the Supersaturation based on Concentration of Species A and B along with Solubility Product calculation can be explained with given input values -> 1.704446 = ((1.45^4)*((4.25^3))/338.12)^(1/(4+3)).

FAQ

What is Supersaturation based on Concentration of Species A and B along with Solubility Product?
The Supersaturation based on Concentration of Species A and B along with Solubility Product formula is defined as the driving force for the formation of crystals and is represented as S = ((CA^x)*((CB^y))/KC)^(1/(x+y)) or Supersaturation Ratio = ((Concentration of Specie A^Stochiometric Value for A)*((Concentration of specie B^Stochiometric Value for B))/Solubility Product)^(1/(Stochiometric Value for A+Stochiometric Value for B)). Concentration of specie A is dependent on the solubility product constant and the concentration of specie B (the anion) in the solution, Stochiometric Value for A is the the number of moles of the cation, M, produced when one mole of the ionic compound AxBy(s), dissolves in water, Concentration of specie B is dependent on the solubility product constant and the concentration of specie B (the anion) in the solution, Stochiometric Value for B is defined as the number of moles of the Anion B produced when one mole of the ionic compound, AxBy(s), dissolves in water & Solubility product represents the equilibrium between a sparingly soluble ionic compound and its dissociated ions in a saturated solution at a specific temperature.
How to calculate Supersaturation based on Concentration of Species A and B along with Solubility Product?
The Supersaturation based on Concentration of Species A and B along with Solubility Product formula is defined as the driving force for the formation of crystals is calculated using Supersaturation Ratio = ((Concentration of Specie A^Stochiometric Value for A)*((Concentration of specie B^Stochiometric Value for B))/Solubility Product)^(1/(Stochiometric Value for A+Stochiometric Value for B)). To calculate Supersaturation based on Concentration of Species A and B along with Solubility Product, you need Concentration of Specie A (CA), Stochiometric Value for A (x), Concentration of specie B (CB), Stochiometric Value for B (y) & Solubility Product (KC). With our tool, you need to enter the respective value for Concentration of Specie A, Stochiometric Value for A, Concentration of specie B, Stochiometric Value for B & Solubility Product 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 Supersaturation Ratio?
In this formula, Supersaturation Ratio uses Concentration of Specie A, Stochiometric Value for A, Concentration of specie B, Stochiometric Value for B & Solubility Product. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Supersaturation Ratio = Solution Concentration/Equilibrium Saturation Value
  • Supersaturation Ratio = ((Activity of Specie A^Stochiometric Value for A)*((Activity of Specie B^Stochiometric Value for B))/Solubility Product for Activity)^(1/(Stochiometric Value for A+Stochiometric Value for B))
  • Supersaturation Ratio = Partial Pressure at Solution Concentration/Partial Pressure at Saturation Concentration
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