Weight-Average Molecular Weight in General Step Reaction Polymerization Solution

STEP 0: Pre-Calculation Summary
Formula Used
Weight-Average Molecular Weight = Number-Average Molecular Weight*(1+Probability of Finding Repeating Unit AB)
Mw = Mn*(1+p)
This formula uses 3 Variables
Variables Used
Weight-Average Molecular Weight - (Measured in Kilogram Per Mole) - The Weight-Average Molecular Weight measuring system includes the mass of individual chains, which contributes to the overall molecular weight of the polymer.
Number-Average Molecular Weight - (Measured in Kilogram Per Mole) - The Number-Average Molecular Weight is a measuring system that requires counting the total number of molecules in a unit mass of polymer irrespective of their shape or size.
Probability of Finding Repeating Unit AB - The Probability of Finding Repeating Unit AB is the possibility of finding repeating unit AB in a polymer chain.
STEP 1: Convert Input(s) to Base Unit
Number-Average Molecular Weight: 23.37 Gram Per Mole --> 0.02337 Kilogram Per Mole (Check conversion here)
Probability of Finding Repeating Unit AB: 0.23 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Mw = Mn*(1+p) --> 0.02337*(1+0.23)
Evaluating ... ...
Mw = 0.0287451
STEP 3: Convert Result to Output's Unit
0.0287451 Kilogram Per Mole -->28.7451 Gram Per Mole (Check conversion here)
FINAL ANSWER
28.7451 Gram Per Mole <-- Weight-Average Molecular Weight
(Calculation completed in 00.020 seconds)

Credits

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Amity Institute Of Applied Sciences (AIAS, Amity University), Noida, India
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15 Polymers Calculators

Sedimentation Coefficient given Dynamic Viscosity
Go Sedimentation Coefficient = Mass of Particle/(6*pi*Dynamic Viscosity*Radius of Spherical Particle)
Sedimentation Coefficient given Radius of Particle
Go Sedimentation Coefficient = Sedimentation Speed/((Radius of Spherical Particle)*(Angular Velocity)^2)
Viscosity Number
Go Viscosity Number = (Flow Time of Polymer Solution/(Flow Time of Solvent-1))/Polymer Concentration
Average Functionality Factor
Go Average Functional Factor = (Mole of each Reactant*Functionality)/Total Number of Moles
Rate of Polycondensation
Go Rate of Polycondensation = Rate Constant*(Diacid Concentration)^2*Diol Concentration
Number-Average Molecular Weight
Go Number-Average Molecular Weight = Molecular Weight of Repeating Unit/(1-Probability of Finding Repeating Unit AB)
Weight-Average Molecular Weight in General Step Reaction Polymerization
Go Weight-Average Molecular Weight = Number-Average Molecular Weight*(1+Probability of Finding Repeating Unit AB)
Number-Average Degree of Polymerization
Go Number-Average Degree of Polymerization = Number of Original Molecules/Number of Molecules at Specific Time
Activation Energy for Propagation
Go Activation Energy for Propagation = Heat of Polymerization+Activation Energy for Depolymerization
Compressive Strength of Material
Go Compressive Strength of Material = Force Applied on Material/Cross Sectional Area of Polymer
Polydispersity Index for Step-Reaction Polymers
Go Polydispersity Index = Weight-Average Molecular Weight/Number-Average Molecular Weight
Tensile Strength given Cross-Sectional Area
Go Tensile Strength = Force Applied on Material/Cross Sectional Area of Polymer
Sedimentation Coefficient of Particle
Go Sedimentation Coefficient = Sedimentation Speed/Applied Acceleration
Contour Length of Macromolecule
Go Contour Length = Number of Monomers*Length of Monomer Unit
Deborah Number
Go Deborah Number = Time of Relaxation/Observation Time

11 Important Formulas of Polymers Calculators

Viscosity Number
Go Viscosity Number = (Flow Time of Polymer Solution/(Flow Time of Solvent-1))/Polymer Concentration
Average Functionality Factor
Go Average Functional Factor = (Mole of each Reactant*Functionality)/Total Number of Moles
Rate of Polycondensation
Go Rate of Polycondensation = Rate Constant*(Diacid Concentration)^2*Diol Concentration
Number-Average Molecular Weight
Go Number-Average Molecular Weight = Molecular Weight of Repeating Unit/(1-Probability of Finding Repeating Unit AB)
Weight-Average Molecular Weight in General Step Reaction Polymerization
Go Weight-Average Molecular Weight = Number-Average Molecular Weight*(1+Probability of Finding Repeating Unit AB)
Number-Average Degree of Polymerization
Go Number-Average Degree of Polymerization = Number of Original Molecules/Number of Molecules at Specific Time
Compressive Strength of Material
Go Compressive Strength of Material = Force Applied on Material/Cross Sectional Area of Polymer
Polydispersity Index for Step-Reaction Polymers
Go Polydispersity Index = Weight-Average Molecular Weight/Number-Average Molecular Weight
Tensile Strength given Cross-Sectional Area
Go Tensile Strength = Force Applied on Material/Cross Sectional Area of Polymer
Sedimentation Coefficient of Particle
Go Sedimentation Coefficient = Sedimentation Speed/Applied Acceleration
Contour Length of Macromolecule
Go Contour Length = Number of Monomers*Length of Monomer Unit

Weight-Average Molecular Weight in General Step Reaction Polymerization Formula

Weight-Average Molecular Weight = Number-Average Molecular Weight*(1+Probability of Finding Repeating Unit AB)
Mw = Mn*(1+p)

What is Polymerization?

In polymer chemistry, polymerization is a process of reacting monomer molecules together in a chemical reaction to form polymer chains or three-dimensional networks. In chemical compounds, polymerization can occur via a variety of reaction mechanisms that vary in complexity due to the functional groups present in the reactants and their inherent steric effects.

How to Calculate Weight-Average Molecular Weight in General Step Reaction Polymerization?

Weight-Average Molecular Weight in General Step Reaction Polymerization calculator uses Weight-Average Molecular Weight = Number-Average Molecular Weight*(1+Probability of Finding Repeating Unit AB) to calculate the Weight-Average Molecular Weight, The Weight-Average Molecular Weight in General Step Reaction Polymerization measuring system includes the mass of individual chains, which contributes to the overall molecular weight of the polymer. Weight-Average Molecular Weight is denoted by Mw symbol.

How to calculate Weight-Average Molecular Weight in General Step Reaction Polymerization using this online calculator? To use this online calculator for Weight-Average Molecular Weight in General Step Reaction Polymerization, enter Number-Average Molecular Weight (Mn) & Probability of Finding Repeating Unit AB (p) and hit the calculate button. Here is how the Weight-Average Molecular Weight in General Step Reaction Polymerization calculation can be explained with given input values -> 28745.1 = 0.02337*(1+0.23).

FAQ

What is Weight-Average Molecular Weight in General Step Reaction Polymerization?
The Weight-Average Molecular Weight in General Step Reaction Polymerization measuring system includes the mass of individual chains, which contributes to the overall molecular weight of the polymer and is represented as Mw = Mn*(1+p) or Weight-Average Molecular Weight = Number-Average Molecular Weight*(1+Probability of Finding Repeating Unit AB). The Number-Average Molecular Weight is a measuring system that requires counting the total number of molecules in a unit mass of polymer irrespective of their shape or size & The Probability of Finding Repeating Unit AB is the possibility of finding repeating unit AB in a polymer chain.
How to calculate Weight-Average Molecular Weight in General Step Reaction Polymerization?
The Weight-Average Molecular Weight in General Step Reaction Polymerization measuring system includes the mass of individual chains, which contributes to the overall molecular weight of the polymer is calculated using Weight-Average Molecular Weight = Number-Average Molecular Weight*(1+Probability of Finding Repeating Unit AB). To calculate Weight-Average Molecular Weight in General Step Reaction Polymerization, you need Number-Average Molecular Weight (Mn) & Probability of Finding Repeating Unit AB (p). With our tool, you need to enter the respective value for Number-Average Molecular Weight & Probability of Finding Repeating Unit AB 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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