Ligand Stoichiometry in Complex Equilibrium Solution

STEP 0: Pre-Calculation Summary
Formula Used
Stoichiometric Coefficient of Lewis Base = Maxima of pL Curve/(1-Maxima of pL Curve)
lcomplex = Xmax/(1-Xmax)
This formula uses 2 Variables
Variables Used
Stoichiometric Coefficient of Lewis Base - Stoichiometric Coefficient of Lewis Base is a multiplier or factor that measures a particular property.
Maxima of pL Curve - Maxima of pL Curve is the maximum value of a function i.e, the place where a function reaches its highest point, or vertex, on a graph.
STEP 1: Convert Input(s) to Base Unit
Maxima of pL Curve: 0.04 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
lcomplex = Xmax/(1-Xmax) --> 0.04/(1-0.04)
Evaluating ... ...
lcomplex = 0.0416666666666667
STEP 3: Convert Result to Output's Unit
0.0416666666666667 --> No Conversion Required
FINAL ANSWER
0.0416666666666667 0.041667 <-- Stoichiometric Coefficient of Lewis Base
(Calculation completed in 00.004 seconds)

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University of Calcutta (CU), Kolkata
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12 Complex Equilibria Calculators

Second Stability Constant
Go Second Stability Constant = (Formation Factor for Complexation*(Formation Factor for Second Order-1)*First Stability Constant*Ligand Concentration of the Complex)/(Ligand Concentration of the Complex*Ligand Concentration of the Complex*(2-Formation Factor for Complexation)*First Stability Constant)
Change in Stability Constant
Go Change in Stability Constant of the Complex = 10^(log10(Stability Constant for Ternary Complex)-(log10(Stability Constant for Binary Complex MA)+log10(Stability Constant for Binary Complex MB)))
Relation between First and Second Stability Constant
Go Second Stability Constant = 10^((2*pH of Ligand)+log10(Formation Factor for Complexation/((2-Formation Factor for Complexation)*First Stability Constant)))
First Stability Constant
Go First Stability Constant = 10^(log10(Formation Factor for Complexation/(1-Formation Factor for Complexation))+pH of Ligand)
Stability Constant of Ternary Complexes
Go Stability Constant for Ternary Complex = (Concentration of Ternary Complex)/(Concentration of Binary Ion*Ligand Concentration of the Complex)
Stability Constant of Binary Complexes
Go Stability Constant for Binary Complex = (Concentration of Binary Ion)/(Concentration of Metal in Complex*Ligand Concentration of the Complex)
Concentration of Unbound Ligand
Go Concentration of Unbound Ligand = Total Bound Ligand of Complex-(Formation Factor for Complexation*Total Metal Concentration of Complex)
Formation Factor
Go Formation Factor for Complexation = (Total Bound Ligand of Complex-Concentration of Unbound Ligand)/Total Metal Concentration of Complex
Total Metal Ligand Concentration
Go Total Metal Ligand Concentration of Complex = Total Metal Concentration of Complex+Total Bound Ligand of Complex
Ligand Stoichiometry in Complex Equilibrium
Go Stoichiometric Coefficient of Lewis Base = Maxima of pL Curve/(1-Maxima of pL Curve)
pH of Ligand
Go pH of Ligand = -log10(Ligand Concentration of the Complex)
Stability Constant of Complex Compound
Go Stability Constant of Complex = 1/Dissociation Constant of the Complex

Ligand Stoichiometry in Complex Equilibrium Formula

Stoichiometric Coefficient of Lewis Base = Maxima of pL Curve/(1-Maxima of pL Curve)
lcomplex = Xmax/(1-Xmax)

What is Complexation?

Complexation is the combination of individual atom groups, ions or molecules to create one large ion or molecule. One atom or ion is the focal point of the complex. This central atom contains empty electron orbitals that enable bonding with other atoms as well as unshared electrons.

What do you mean by stability factor?

Stability factor is defined as the rate at which collector current changes when Base to emitter voltage changes, keeping base current constant. It can also be defined as the ratio of change in collector current to change in base current when temperature changes occur.

How to Calculate Ligand Stoichiometry in Complex Equilibrium?

Ligand Stoichiometry in Complex Equilibrium calculator uses Stoichiometric Coefficient of Lewis Base = Maxima of pL Curve/(1-Maxima of pL Curve) to calculate the Stoichiometric Coefficient of Lewis Base, The Ligand Stoichiometry in Complex Equilibrium formula is defined as a multiplier or factor that measures the ligand property and also defines the number of ligand binding to the metal. Stoichiometric Coefficient of Lewis Base is denoted by lcomplex symbol.

How to calculate Ligand Stoichiometry in Complex Equilibrium using this online calculator? To use this online calculator for Ligand Stoichiometry in Complex Equilibrium, enter Maxima of pL Curve (Xmax) and hit the calculate button. Here is how the Ligand Stoichiometry in Complex Equilibrium calculation can be explained with given input values -> 0.041667 = 0.04/(1-0.04).

FAQ

What is Ligand Stoichiometry in Complex Equilibrium?
The Ligand Stoichiometry in Complex Equilibrium formula is defined as a multiplier or factor that measures the ligand property and also defines the number of ligand binding to the metal and is represented as lcomplex = Xmax/(1-Xmax) or Stoichiometric Coefficient of Lewis Base = Maxima of pL Curve/(1-Maxima of pL Curve). Maxima of pL Curve is the maximum value of a function i.e, the place where a function reaches its highest point, or vertex, on a graph.
How to calculate Ligand Stoichiometry in Complex Equilibrium?
The Ligand Stoichiometry in Complex Equilibrium formula is defined as a multiplier or factor that measures the ligand property and also defines the number of ligand binding to the metal is calculated using Stoichiometric Coefficient of Lewis Base = Maxima of pL Curve/(1-Maxima of pL Curve). To calculate Ligand Stoichiometry in Complex Equilibrium, you need Maxima of pL Curve (Xmax). With our tool, you need to enter the respective value for Maxima of pL Curve 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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