Liquid Concentration Solution

STEP 0: Pre-Calculation Summary
Formula Used
Impurity Concentration in Liquid = Impurity Concentration in Solid/Distribution Coefficient
CL = Csolid/kd
This formula uses 3 Variables
Variables Used
Impurity Concentration in Liquid - (Measured in 1 per Meter) - Impurity Concentration in Liquid refers to the concentration of the impurity added in liquid for doping.
Impurity Concentration in Solid - (Measured in 1 per Meter) - Impurity Concentration in Solid is the amount of impurity added in order to perform doping in solid substance.
Distribution Coefficient - The Distribution coefficient is the concentration of solute in two different types of solvents.
STEP 1: Convert Input(s) to Base Unit
Impurity Concentration in Solid: 1.01E+15 1 per Centimeter --> 1.01E+17 1 per Meter (Check conversion here)
Distribution Coefficient: 0.41 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
CL = Csolid/kd --> 1.01E+17/0.41
Evaluating ... ...
CL = 2.46341463414634E+17
STEP 3: Convert Result to Output's Unit
2.46341463414634E+17 1 per Meter -->2.46341463414634E+15 1 per Centimeter (Check conversion here)
FINAL ANSWER
2.46341463414634E+15 2.5E+15 1 per Centimeter <-- Impurity Concentration in Liquid
(Calculation completed in 00.004 seconds)

Credits

Created by Shobhit Dimri
Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat
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20 Energy Band & Charge Carrier Calculators

Intrinsic Carrier Concentration
Go Intrinsic Carrier Concentration = sqrt(Effective Density of State in Valence Band*Effective Density of State in Conduction Band) *exp(-Energy Gap/(2*[BoltZ]*Temperature))
Carrier Lifetime
Go Carrier Lifetime = 1/(Proportionality for Recombination*(Holes Concentration in Valance Band+Electron Concentration in Conduction Band))
Energy of Electron given Coulomb's Constant
Go Energy of Electron = (Quantum Number^2*pi^2*[hP]^2)/(2*[Mass-e]*Potential Well Length^2)
Steady State Electron Concentration
Go Steady State Carrier Concentration = Electron Concentration in Conduction Band+Excess Carrier Concentration
Effective Density of State
Go Effective Density of State in Conduction Band = Electron Concentration in Conduction Band/Fermi Function
Fermi Function
Go Fermi Function = Electron Concentration in Conduction Band/Effective Density of State in Conduction Band
Concentration in Conduction Band
Go Electron Concentration in Conduction Band = Effective Density of State in Conduction Band*Fermi Function
Effective Density State in Valence Band
Go Effective Density of State in Valence Band = Holes Concentration in Valance Band/(1-Fermi Function)
Recombination Lifetime
Go Recombination Lifetime = (Proportionality for Recombination*Holes Concentration in Valance Band)^-1
Concentration of Holes in Valence Band
Go Holes Concentration in Valance Band = Effective Density of State in Valence Band*(1-Fermi Function)
Thermal Generation Rate
Go Thermal Generation = Proportionality for Recombination*(Intrinsic Carrier Concentration ^2)
Distribution Coefficient
Go Distribution Coefficient = Impurity Concentration in Solid/Impurity Concentration in Liquid
Liquid Concentration
Go Impurity Concentration in Liquid = Impurity Concentration in Solid/Distribution Coefficient
Net Rate of Change in Conduction Band
Go Proportionality for Recombination = Thermal Generation/(Intrinsic Carrier Concentration^2)
Excess Carrier Concentration
Go Excess Carrier Concentration = Optical Generation Rate*Recombination Lifetime
Optical Generation Rate
Go Optical Generation Rate = Excess Carrier Concentration/Recombination Lifetime
Photoelectron Energy
Go Photoelectron Energy = [hP]*Frequency of Incident Light
Conduction Band Energy
Go Conduction Band Energy = Energy Gap+Valence Band Energy
Valence Band Energy
Go Valence Band Energy = Conduction Band Energy-Energy Gap
Energy Gap
Go Energy Gap = Conduction Band Energy-Valence Band Energy

Liquid Concentration Formula

Impurity Concentration in Liquid = Impurity Concentration in Solid/Distribution Coefficient
CL = Csolid/kd

How is concentration measured?

Concentration is most commonly expressed as molarity. A one molar solution contains one mol of solute per liter of solution (B+C). When making solutions in the lab, the mols of solute can be determined from the measured mass of the molecule and its molecular weight.

How to Calculate Liquid Concentration?

Liquid Concentration calculator uses Impurity Concentration in Liquid = Impurity Concentration in Solid/Distribution Coefficient to calculate the Impurity Concentration in Liquid, The Liquid Concentration formula is defined as the concentration of liquid in the solid crystal at equilibrium. Impurity Concentration in Liquid is denoted by CL symbol.

How to calculate Liquid Concentration using this online calculator? To use this online calculator for Liquid Concentration, enter Impurity Concentration in Solid (Csolid) & Distribution Coefficient (kd) and hit the calculate button. Here is how the Liquid Concentration calculation can be explained with given input values -> 2.5E+13 = 1.01E+17/0.41.

FAQ

What is Liquid Concentration?
The Liquid Concentration formula is defined as the concentration of liquid in the solid crystal at equilibrium and is represented as CL = Csolid/kd or Impurity Concentration in Liquid = Impurity Concentration in Solid/Distribution Coefficient. Impurity Concentration in Solid is the amount of impurity added in order to perform doping in solid substance & The Distribution coefficient is the concentration of solute in two different types of solvents.
How to calculate Liquid Concentration?
The Liquid Concentration formula is defined as the concentration of liquid in the solid crystal at equilibrium is calculated using Impurity Concentration in Liquid = Impurity Concentration in Solid/Distribution Coefficient. To calculate Liquid Concentration, you need Impurity Concentration in Solid (Csolid) & Distribution Coefficient (kd). With our tool, you need to enter the respective value for Impurity Concentration in Solid & Distribution Coefficient 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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