Extent of Reaction given Number of Moles Initially and at Equilibrium Calculator

✖Number of Moles at Equilibrium are given when the liquid and vapour phase of the substance are in equilibrium.ⓘ Number of Moles at Equilibrium [n_Equilibrium]			+10% -10%
✖Initial Number of Moles is the amount of gas present in moles at the primary stage of reaction at equilibrium.ⓘ Initial Number of Moles [n_initial]			+10% -10%
✖Stoichiometric Coefficient for i-th Component refers to the relationship between the quantities of reactants and products before, during, and following chemical reactions.ⓘ Stoichiometric Coefficient for i-th Component [v_i]			+10% -10%

✖Extent of Reaction measures the progress of a reaction and is defined as the degree to which a reaction has advanced.ⓘ Extent of Reaction given Number of Moles Initially and at Equilibrium [ξ_Reaction]

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Formula

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Extent of Reaction given Number of Moles Initially and at Equilibrium

Formula

`"ξ"_{"Reaction"} = (("n"_{"Equilibrium"}-"n"_{"initial"})/"v"_{"i"})`

Example

`"4.611111mol"=(("100mol"-"17mol")/"18")`

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Extent of Reaction given Number of Moles Initially and at Equilibrium Solution

STEP 0: Pre-Calculation Summary

Formula Used

Extent of Reaction = ((Number of Moles at Equilibrium-Initial Number of Moles)/Stoichiometric Coefficient for i-th Component)
ξ_Reaction = ((n_Equilibrium-n_initial)/v_i)
This formula uses 4 Variables

Variables Used

Extent of Reaction - (Measured in Mole) - Extent of Reaction measures the progress of a reaction and is defined as the degree to which a reaction has advanced.
Number of Moles at Equilibrium - (Measured in Mole) - Number of Moles at Equilibrium are given when the liquid and vapour phase of the substance are in equilibrium.
Initial Number of Moles - (Measured in Mole) - Initial Number of Moles is the amount of gas present in moles at the primary stage of reaction at equilibrium.
Stoichiometric Coefficient for i-th Component - Stoichiometric Coefficient for i-th Component refers to the relationship between the quantities of reactants and products before, during, and following chemical reactions.

STEP 1: Convert Input(s) to Base Unit

Number of Moles at Equilibrium: 100 Mole --> 100 Mole No Conversion Required
Initial Number of Moles: 17 Mole --> 17 Mole No Conversion Required
Stoichiometric Coefficient for i-th Component: 18 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

ξ_Reaction = ((n_Equilibrium-n_initial)/v_i) --> ((100-17)/18)

Evaluating ... ...

ξ_Reaction = 4.61111111111111

STEP 3: Convert Result to Output's Unit

4.61111111111111 Mole --> No Conversion Required

FINAL ANSWER

4.61111111111111 ≈ 4.611111 Mole <-- Extent of Reaction

(Calculation completed in 00.020 seconds)

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Number of Moles Initially given Extent of Reaction

Go Initial Number of Moles = (Number of Moles at Equilibrium-(Stoichiometric Coefficient for i-th Component*Extent of Reaction))

Extent of Reaction given Number of Moles Initially and at Equilibrium

Go Extent of Reaction = ((Number of Moles at Equilibrium-Initial Number of Moles)/Stoichiometric Coefficient for i-th Component)

Number of Moles at Equilibrium given Extent of Reaction

Go Number of Moles at Equilibrium = Initial Number of Moles+(Stoichiometric Coefficient for i-th Component*Extent of Reaction)

Pressure by Ideal Gas Law

Go Pressure of Gas = (Number of Moles*[R]*Temperature of Gas)/Volume of Gas

Overall Conversion in Recycle Process

Go Overall Conversion = ((Amount of Fresh Feed-Amount of Net Product)/Amount of Fresh Feed)*100

Change in Number of Moles due to Reaction

Go Change in Number of Moles = (Stoichiometric Coefficient for i-th Component *Extent of Reaction)

Extent of Reaction given Change in Number of Moles

Go Extent of Reaction = (Change in Number of Moles/Stoichiometric Coefficient for i-th Component)

Number of Gram-Atoms of Element

Go Number of Gram-Atoms of Element = Number of Grams of Element/Average Molecular Weight

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Go Selectivity = (Moles of Desired Product/Moles of Undesired Product formed)*100

Overall Material Balance for Crystallizer

Go Feed Solution = Weight of Saturated Solution+Yield of Crystals

Mass Fraction of Species A

Go Mass Fraction = Mass of Species A/Total Mass of Molecule

Vacuum Pressure

Go Vacuum Pressure = Atmospheric Pressure-Absolute Pressure

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Go Gauge Pressure = Absolute Pressure-Atmospheric Pressure

Extent of Reaction given Number of Moles Initially and at Equilibrium Formula

Extent of Reaction = ((Number of Moles at Equilibrium-Initial Number of Moles)/Stoichiometric Coefficient for i-th Component)
ξ_Reaction = ((n_Equilibrium-n_initial)/v_i)

What is Extent of Reaction?

It measures the progress of a reaction and is defined as the degree to which a reaction has advanced.

What is Stoichiometric Coefficient?

Stoichiometric coefficient (ν) is the number appearing before the symbol for each compound in the equation for a chemical reaction.

How to Calculate Extent of Reaction given Number of Moles Initially and at Equilibrium?

Extent of Reaction given Number of Moles Initially and at Equilibrium calculator uses Extent of Reaction = ((Number of Moles at Equilibrium-Initial Number of Moles)/Stoichiometric Coefficient for i-th Component) to calculate the Extent of Reaction, The Extent of Reaction given Number of Moles Initially and at Equilibrium formula is defined as the ratio of change in number of moles( Final -initial moles) by stoichiometric coefficient. Extent of Reaction is denoted by ξ_Reaction symbol.

How to calculate Extent of Reaction given Number of Moles Initially and at Equilibrium using this online calculator? To use this online calculator for Extent of Reaction given Number of Moles Initially and at Equilibrium, enter Number of Moles at Equilibrium (n_Equilibrium), Initial Number of Moles (n_initial) & Stoichiometric Coefficient for i-th Component (v_i) and hit the calculate button. Here is how the Extent of Reaction given Number of Moles Initially and at Equilibrium calculation can be explained with given input values -> 4.611111 = ((100-17)/18).

FAQ

What is Extent of Reaction given Number of Moles Initially and at Equilibrium?

The Extent of Reaction given Number of Moles Initially and at Equilibrium formula is defined as the ratio of change in number of moles( Final -initial moles) by stoichiometric coefficient and is represented as ξ_Reaction = ((n_Equilibrium-n_initial)/v_i) or Extent of Reaction = ((Number of Moles at Equilibrium-Initial Number of Moles)/Stoichiometric Coefficient for i-th Component). Number of Moles at Equilibrium are given when the liquid and vapour phase of the substance are in equilibrium, Initial Number of Moles is the amount of gas present in moles at the primary stage of reaction at equilibrium & Stoichiometric Coefficient for i-th Component refers to the relationship between the quantities of reactants and products before, during, and following chemical reactions.

How to calculate Extent of Reaction given Number of Moles Initially and at Equilibrium?

The Extent of Reaction given Number of Moles Initially and at Equilibrium formula is defined as the ratio of change in number of moles( Final -initial moles) by stoichiometric coefficient is calculated using Extent of Reaction = ((Number of Moles at Equilibrium-Initial Number of Moles)/Stoichiometric Coefficient for i-th Component). To calculate Extent of Reaction given Number of Moles Initially and at Equilibrium, you need Number of Moles at Equilibrium (n_Equilibrium), Initial Number of Moles (n_initial) & Stoichiometric Coefficient for i-th Component (v_i). With our tool, you need to enter the respective value for Number of Moles at Equilibrium, Initial Number of Moles & Stoichiometric Coefficient for i-th Component 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 Extent of Reaction?

In this formula, Extent of Reaction uses Number of Moles at Equilibrium, Initial Number of Moles & Stoichiometric Coefficient for i-th Component. We can use 1 other way(s) to calculate the same, which is/are as follows -

Extent of Reaction = (Change in Number of Moles/Stoichiometric Coefficient for i-th Component)

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