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Reactant Concentration in Constant Volume Batch Reactor Formula

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Concentration of Reactant A refers to the amount of reactant A present in the solvent at any given point of time during the process. Check FAQs

C A = (\frac{N Ao}{V solution}) - (\frac{A}{Δn}) \cdot (\frac{N T - N 0}{V solution})

C_A - Concentration of Reactant A?N_Ao - Number of Moles of Reactant-A Fed?V_solution - Volume of Solution?A - Stoichiometric Coefficient of Reactant?Δn - Net Stoichiometric Coefficient?N_T - Total Number of Moles?N₀ - Total Number of Moles Initially?

Reactant Concentration in Constant Volume Batch Reactor Example

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Here is how the Reactant Concentration in Constant Volume Batch Reactor equation looks like with Values.

Here is how the Reactant Concentration in Constant Volume Batch Reactor equation looks like with Units.

Here is how the Reactant Concentration in Constant Volume Batch Reactor equation looks like.

1.1685 = (\frac{11.934}{10.2}) - (\frac{3}{4}) \cdot (\frac{16 - 15.98}{10.2})

1.1685mol/m³ = (\frac{11.934mol}{10.2m³}) - (\frac{3}{4}) \cdot (\frac{16mol - 15.98mol}{10.2m³})

1.1685 = (\frac{11.934}{10.2}) - (\frac{3}{4}) \cdot (\frac{16 - 15.98}{10.2})

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Reactant Concentration in Constant Volume Batch Reactor Solution

Follow our step by step solution on how to calculate Reactant Concentration in Constant Volume Batch Reactor?

FIRST Step Consider the formula

C A = (\frac{N Ao}{V solution}) - (\frac{A}{Δn}) \cdot (\frac{N T - N 0}{V solution})

Next Step Substitute values of Variables

∴

C A = (\frac{11.934mol}{10.2m³}) - (\frac{3}{4}) \cdot (\frac{16mol - 15.98mol}{10.2m³})

Next Step Prepare to Evaluate

∴

C A = (\frac{11.934}{10.2}) - (\frac{3}{4}) \cdot (\frac{16 - 15.98}{10.2})

Next Step Evaluate

∴

C A = 1.16852941176471mol/m³

LAST Step Rounding Answer

∴

C A = 1.1685mol/m³

Reactant Concentration in Constant Volume Batch Reactor Formula Elements

Variables

Concentration of Reactant A

Concentration of Reactant A refers to the amount of reactant A present in the solvent at any given point of time during the process.

Symbol: C_A

Measurement: Molar ConcentrationUnit: mol/m³

Note: Value can be positive or negative.

Formulas to find Concentration of Reactant A

Number of Moles of Reactant-A Fed

The Number of Moles of Reactant-A Fed refers to the amount of reactant supplied.

Symbol: N_Ao

Measurement: Amount of SubstanceUnit: mol

Note: Value should be greater than 0.

Formulas to find Number of Moles of Reactant-A Fed

Volume of Solution

The volume of solution gives the volume of the solution in cubic meter.

Symbol: V_solution

Measurement: VolumeUnit: m³

Note: Value should be greater than 0.

Formulas to find Volume of Solution

Stoichiometric Coefficient of Reactant

Stoichiometric Coefficient of Reactant is the unit less number present before the reactant in a chemical equation.

Symbol: A

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Stoichiometric Coefficient of Reactant

Net Stoichiometric Coefficient

Net Stoichiometric Coefficient is the difference of sum of all product stoichiometric coefficients and sum of all reactant stoichiometric coefficients.

Symbol: Δn

Measurement: NAUnit: Unitless

Note: Value can be positive or negative.

Formulas to find Net Stoichiometric Coefficient

Total Number of Moles

Total Number of Moles is the total number of moles present in the system.

Symbol: N_T

Measurement: Amount of SubstanceUnit: mol

Note: Value should be greater than 0.

Formulas to find Total Number of Moles

Total Number of Moles Initially

Total Number of Moles Initially is the number of moles present in the system before the required process.

Symbol: N₀

Measurement: Amount of SubstanceUnit: mol

Note: Value can be positive or negative.

Formulas to find Total Number of Moles Initially

Other formulas in Constant Volume Batch Reactor category

Go Initial Partial Pressure of Product in Constant Volume Batch Reactor

p R0 = p R - (\frac{R}{Δn}) \cdot (π - π 0)

Go Initial Partial Pressure of Reactant in Constant Volume Batch Reactor

p A0 = p A + (\frac{A}{Δn}) \cdot (π - π 0)

How to Evaluate Reactant Concentration in Constant Volume Batch Reactor?

Reactant Concentration in Constant Volume Batch Reactor evaluator uses Concentration of Reactant A = (Number of Moles of Reactant-A Fed/Volume of Solution)-(Stoichiometric Coefficient of Reactant/Net Stoichiometric Coefficient)*((Total Number of Moles-Total Number of Moles Initially)/Volume of Solution) to evaluate the Concentration of Reactant A, Reactant Concentration in Constant Volume Batch Reactor formula is defined as the amount of reactant present at respective time in constant volume batch reactor. Concentration of Reactant A is denoted by C_A symbol.

How to evaluate Reactant Concentration in Constant Volume Batch Reactor using this online evaluator? To use this online evaluator for Reactant Concentration in Constant Volume Batch Reactor, enter Number of Moles of Reactant-A Fed (N_Ao), Volume of Solution (V_solution), Stoichiometric Coefficient of Reactant (A), Net Stoichiometric Coefficient (Δn), Total Number of Moles (N_T) & Total Number of Moles Initially (N₀) and hit the calculate button.

FAQs on Reactant Concentration in Constant Volume Batch Reactor

What is the formula to find Reactant Concentration in Constant Volume Batch Reactor?

The formula of Reactant Concentration in Constant Volume Batch Reactor is expressed as Concentration of Reactant A = (Number of Moles of Reactant-A Fed/Volume of Solution)-(Stoichiometric Coefficient of Reactant/Net Stoichiometric Coefficient)*((Total Number of Moles-Total Number of Moles Initially)/Volume of Solution). Here is an example- 1.168529 = (11.934/10.2)-(3/4)*((16-15.98)/10.2).

How to calculate Reactant Concentration in Constant Volume Batch Reactor?

With Number of Moles of Reactant-A Fed (N_Ao), Volume of Solution (V_solution), Stoichiometric Coefficient of Reactant (A), Net Stoichiometric Coefficient (Δn), Total Number of Moles (N_T) & Total Number of Moles Initially (N₀) we can find Reactant Concentration in Constant Volume Batch Reactor using the formula - Concentration of Reactant A = (Number of Moles of Reactant-A Fed/Volume of Solution)-(Stoichiometric Coefficient of Reactant/Net Stoichiometric Coefficient)*((Total Number of Moles-Total Number of Moles Initially)/Volume of Solution).

Can the Reactant Concentration in Constant Volume Batch Reactor be negative?

Yes, the Reactant Concentration in Constant Volume Batch Reactor, measured in Molar Concentration can be negative.

Which unit is used to measure Reactant Concentration in Constant Volume Batch Reactor?

Reactant Concentration in Constant Volume Batch Reactor is usually measured using the Mole per Cubic Meter[mol/m³] for Molar Concentration. Mole per Liter[mol/m³], Mole per Cubic Millimeter[mol/m³], Kilomole per Cubic Meter[mol/m³] are the few other units in which Reactant Concentration in Constant Volume Batch Reactor can be measured.

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Reactant Concentration in Constant Volume Batch Reactor Formula

Reactant Concentration in Constant Volume Batch Reactor Example

Reactant Concentration in Constant Volume Batch Reactor Solution

Reactant Concentration in Constant Volume Batch Reactor Formula Elements

Other formulas in Constant Volume Batch Reactor category

How to Evaluate Reactant Concentration in Constant Volume Batch Reactor?

FAQs on Reactant Concentration in Constant Volume Batch Reactor

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