Number of Moles of Reactant Reacted Calculator

✖Number of Moles of Product Formed is the amount of product we get at the given instant of time during or after the reaction.ⓘ Number of Moles of Product Formed [dP]			+10% -10%
✖Instantaneous fractional yield of a product is a measure of how selective a particular reactant is in forming a particular product at a certain instant.ⓘ Instantaneous Fractional Yield [φ]			+10% -10%

✖Number of Moles of Reactant Reacted is the amount of reactant consumed in the reaction at a certain instant of time.ⓘ Number of Moles of Reactant Reacted [dR]

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Formula

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Number of Moles of Reactant Reacted

Formula

`"dR" = "dP"/"φ"`

Example

`"45mol"="27mol"/"0.6"`

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Number of Moles of Reactant Reacted Solution

STEP 0: Pre-Calculation Summary

Formula Used

Number of Moles of Reactant Reacted = Number of Moles of Product Formed/Instantaneous Fractional Yield
dR = dP/φ
This formula uses 3 Variables

Variables Used

Number of Moles of Reactant Reacted - (Measured in Mole) - Number of Moles of Reactant Reacted is the amount of reactant consumed in the reaction at a certain instant of time.
Number of Moles of Product Formed - (Measured in Mole) - Number of Moles of Product Formed is the amount of product we get at the given instant of time during or after the reaction.
Instantaneous Fractional Yield - Instantaneous fractional yield of a product is a measure of how selective a particular reactant is in forming a particular product at a certain instant.

STEP 1: Convert Input(s) to Base Unit

Number of Moles of Product Formed: 27 Mole --> 27 Mole No Conversion Required
Instantaneous Fractional Yield: 0.6 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

dR = dP/φ --> 27/0.6

Evaluating ... ...

dR = 45

STEP 3: Convert Result to Output's Unit

45 Mole --> No Conversion Required

FINAL ANSWER

45 Mole <-- Number of Moles of Reactant Reacted

(Calculation completed in 00.004 seconds)

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Created by akhilesh

K. K. Wagh Institute of Engineering Education and Research (K.K.W.I.E.E.R.), Nashik

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< 8 Design for Parallel Reactions Calculators

Total Unreacted Reactant

Go Total Moles of Unreacted Reactant = Initial Total Moles of Reactant-(Total Moles of Product Formed/Instantaneous Fractional Yield)

Overall Fractional Yield

Go Overall Fractional Yield = Total Moles of Product Formed/(Initial Total Moles of Reactant-Total Moles of Unreacted Reactant)

Total Product Formed

Go Total Moles of Product Formed = Overall Fractional Yield*(Initial Total Moles of Reactant-Total Moles of Unreacted Reactant)

Total Reactant Fed

Go Initial Total Moles of Reactant = (Total Moles of Product Formed/Overall Fractional Yield)+Total Moles of Unreacted Reactant

Number of Moles of Reactant Reacted

Go Number of Moles of Reactant Reacted = Number of Moles of Product Formed/Instantaneous Fractional Yield

Number of Moles of Product Formed

Go Number of Moles of Product Formed = Number of Moles of Reactant Reacted*Instantaneous Fractional Yield

Instantaneous Fractional Yield

Go Instantaneous Fractional Yield = Number of Moles of Product Formed/Number of Moles of Reactant Reacted

Total Reactant Reacted

Go Total Reactant Reacted = Initial Total Moles of Reactant-Total Moles of Unreacted Reactant

< 16 Basics of Parallel & Single Reactions Calculators

Total Unreacted Reactant

Go Total Moles of Unreacted Reactant = Initial Total Moles of Reactant-(Total Moles of Product Formed/Instantaneous Fractional Yield)

Overall Fractional Yield

Go Overall Fractional Yield = Total Moles of Product Formed/(Initial Total Moles of Reactant-Total Moles of Unreacted Reactant)

Total Product Formed

Go Total Moles of Product Formed = Overall Fractional Yield*(Initial Total Moles of Reactant-Total Moles of Unreacted Reactant)

Total Reactant Fed

Go Initial Total Moles of Reactant = (Total Moles of Product Formed/Overall Fractional Yield)+Total Moles of Unreacted Reactant

Space Velocity using Molar Feed Rate of Reactant

Go Space Velocity = Molar Feed Rate of Reactant/(Concentration of Reactant in Feed*Reactor Volume)

Space Time using Molar Feed Rate of Reactant

Go Space Time = (Concentration of Reactant in Feed*Reactor Volume)/Molar Feed Rate of Reactant

Number of Moles of Reactant Reacted

Go Number of Moles of Reactant Reacted = Number of Moles of Product Formed/Instantaneous Fractional Yield

Number of Moles of Product Formed

Go Number of Moles of Product Formed = Number of Moles of Reactant Reacted*Instantaneous Fractional Yield

Instantaneous Fractional Yield

Go Instantaneous Fractional Yield = Number of Moles of Product Formed/Number of Moles of Reactant Reacted

Molar Flow Rate of Unreacted Reactant using Reactant Conversion

Go Molar Flow Rate of Unreacted Reactant = Molar Feed Rate of Reactant*(1-Reactant Conversion)

Molar Feed Rate of Reactant using Reactant Conversion

Go Molar Feed Rate of Reactant = Molar Flow Rate of Unreacted Reactant/(1-Reactant Conversion)

Total Reactant Reacted

Go Total Reactant Reacted = Initial Total Moles of Reactant-Total Moles of Unreacted Reactant

Reactor Space Velocity

Go Reactor Space Velocity = Volumetric Flow Rate of Feed to Reactor/Reactor Volume

Reactor Space Time

Go Reactor Space Time = Reactor Volume/Volumetric Flow Rate of Feed to Reactor

Space Time using Space Velocity

Go Space Time using Space Velocity = 1/Space Velocity

Space Velocity using Space Time

Go Space Velocity = 1/Space Time

Number of Moles of Reactant Reacted Formula

Number of Moles of Reactant Reacted = Number of Moles of Product Formed/Instantaneous Fractional Yield
dR = dP/φ

What is multi step reaction?

A multi-step reaction is a combination of two or more elementary steps. An elementary step is a single, simple step involving one or two particles. The rate-determining step is the slowest step in a multi-step reaction, and the overall reaction rate will be exactly the same as the rate of the slowest step.

What is parallel reaction?

The reactions in which one or more reactants react simultaneously in two or more pathways to give two or more products are known as parallel (or) side reactions.

How to Calculate Number of Moles of Reactant Reacted?

Number of Moles of Reactant Reacted calculator uses Number of Moles of Reactant Reacted = Number of Moles of Product Formed/Instantaneous Fractional Yield to calculate the Number of Moles of Reactant Reacted, The Number of Moles of Reactant Reacted formula is defined as the amount of reactant consumed in a chemical reaction. Number of Moles of Reactant Reacted is denoted by dR symbol.

How to calculate Number of Moles of Reactant Reacted using this online calculator? To use this online calculator for Number of Moles of Reactant Reacted, enter Number of Moles of Product Formed (dP) & Instantaneous Fractional Yield (φ) and hit the calculate button. Here is how the Number of Moles of Reactant Reacted calculation can be explained with given input values -> 50 = 27/0.6.

FAQ

What is Number of Moles of Reactant Reacted?

The Number of Moles of Reactant Reacted formula is defined as the amount of reactant consumed in a chemical reaction and is represented as dR = dP/φ or Number of Moles of Reactant Reacted = Number of Moles of Product Formed/Instantaneous Fractional Yield. Number of Moles of Product Formed is the amount of product we get at the given instant of time during or after the reaction & Instantaneous fractional yield of a product is a measure of how selective a particular reactant is in forming a particular product at a certain instant.

How to calculate Number of Moles of Reactant Reacted?

The Number of Moles of Reactant Reacted formula is defined as the amount of reactant consumed in a chemical reaction is calculated using Number of Moles of Reactant Reacted = Number of Moles of Product Formed/Instantaneous Fractional Yield. To calculate Number of Moles of Reactant Reacted, you need Number of Moles of Product Formed (dP) & Instantaneous Fractional Yield (φ). With our tool, you need to enter the respective value for Number of Moles of Product Formed & Instantaneous Fractional Yield 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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