HCF of three numbers

Maximum Concentration of Intermediate B in First Order Consecutive Reaction Calculator

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✖Initial Concentration of Reactant A is defined as the concentration of the reactant A at time t=0.ⓘ Initial Concentration of Reactant A [A₀]			+10% -10%
✖Rate Constant of Reaction 2 is the proportionality constant relating to the rate of the chemical reaction to the conc. of the reactant or product in chemical reaction 2.ⓘ Rate Constant of Reaction 2 [k₂]			+10% -10%
✖Reaction Rate Constant 1 is defined as proportionality constant relating to the rate of the chemical reaction to the conc. of reactant or product in reaction 1.ⓘ Reaction Rate Constant 1 [k₁]			+10% -10%

✖Concentration of B at Time t is defined as the amount of substance B present after reacting for a given interval of time t.ⓘ Maximum Concentration of Intermediate B in First Order Consecutive Reaction [[B]]

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Maximum Concentration of Intermediate B in First Order Consecutive Reaction Solution

STEP 0: Pre-Calculation Summary

Formula Used

Concentration of B at Time t = Initial Concentration of Reactant A*(Rate Constant of Reaction 2/Reaction Rate Constant 1)^(Rate Constant of Reaction 2/(Reaction Rate Constant 1-Rate Constant of Reaction 2))
[B] = A₀*(k₂/k₁)^(k₂/(k₁-k₂))
This formula uses 4 Variables

Variables Used

Concentration of B at Time t - (Measured in Mole per Cubic Meter) - Concentration of B at Time t is defined as the amount of substance B present after reacting for a given interval of time t.
Initial Concentration of Reactant A - (Measured in Mole per Cubic Meter) - Initial Concentration of Reactant A is defined as the concentration of the reactant A at time t=0.
Rate Constant of Reaction 2 - (Measured in 1 Per Second) - Rate Constant of Reaction 2 is the proportionality constant relating to the rate of the chemical reaction to the conc. of the reactant or product in chemical reaction 2.
Reaction Rate Constant 1 - (Measured in 1 Per Second) - Reaction Rate Constant 1 is defined as proportionality constant relating to the rate of the chemical reaction to the conc. of reactant or product in reaction 1.

STEP 1: Convert Input(s) to Base Unit

Initial Concentration of Reactant A: 100 Mole per Liter --> 100000 Mole per Cubic Meter (Check conversion here)
Rate Constant of Reaction 2: 0.0089 1 Per Second --> 0.0089 1 Per Second No Conversion Required
Reaction Rate Constant 1: 5.67E-06 1 Per Second --> 5.67E-06 1 Per Second No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

[B] = A₀*(k₂/k₁)^(k₂/(k₁-k₂)) --> 100000*(0.0089/5.67E-06)^(0.0089/(5.67E-06-0.0089))

Evaluating ... ...

[B] = 63.409711019849

STEP 3: Convert Result to Output's Unit

63.409711019849 Mole per Cubic Meter -->0.063409711019849 Mole per Liter (Check conversion here)

FINAL ANSWER

0.063409711019849 ≈ 0.06341 Mole per Liter <-- Concentration of B at Time t

(Calculation completed in 00.004 seconds)

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< Consecutive Reactions Calculators

Concentration of Product C in First Order Consecutive Reaction

LaTeX Go Concentration of C at Time t = Initial Concentration of Reactant A*(1-(1/(Rate Constant of Reaction 2-Reaction Rate Constant 1)*(Rate Constant of Reaction 2*(exp(-Reaction Rate Constant 1*Time)-Reaction Rate Constant 1*exp(-Rate Constant of Reaction 2*Time)))))

Concentration of Intermediate B in First Order Consecutive Reaction

LaTeX Go Concentration of B at Time t = Initial Concentration of Reactant A*(Reaction Rate Constant 1/(Rate Constant of Reaction 2-Reaction Rate Constant 1))*(exp(-Reaction Rate Constant 1*Time)-exp(-Rate Constant of Reaction 2*Time))

Maximum Concentration of Intermediate B in First Order Consecutive Reaction

LaTeX Go Concentration of B at Time t = Initial Concentration of Reactant A*(Rate Constant of Reaction 2/Reaction Rate Constant 1)^(Rate Constant of Reaction 2/(Reaction Rate Constant 1-Rate Constant of Reaction 2))

Concentration of Reactant A in First Order Consecutive Reaction

LaTeX Go Concentration of A at Time t = Initial Concentration of Reactant A*exp(-Reaction Rate Constant 1*Time)

Maximum Concentration of Intermediate B in First Order Consecutive Reaction Formula

LaTeX Go

What is a Consecutive Reaction?

Consecutive reactions can also be referred to as complex reactions. Usually the product of the first reaction is called the intermediate. It's a three step reaction, the product of first reactions is the intermediate, and the final step we obtain the desired product.
Another way to define consecutive reaction is that the reaction in which the reactants form intermediates and then these intermediates react to form the final products.
A→B→C
Here A, B and C are the substances.

How to Calculate Maximum Concentration of Intermediate B in First Order Consecutive Reaction?

Maximum Concentration of Intermediate B in First Order Consecutive Reaction calculator uses Concentration of B at Time t = Initial Concentration of Reactant A*(Rate Constant of Reaction 2/Reaction Rate Constant 1)^(Rate Constant of Reaction 2/(Reaction Rate Constant 1-Rate Constant of Reaction 2)) to calculate the Concentration of B at Time t, The Maximum Concentration of Intermediate B in First Order Consecutive Reaction formula is defined as the maximum amount of the intermediate B that can be formed from the reactant in the reacting system. Concentration of B at Time t is denoted by [B] symbol.

How to calculate Maximum Concentration of Intermediate B in First Order Consecutive Reaction using this online calculator? To use this online calculator for Maximum Concentration of Intermediate B in First Order Consecutive Reaction, enter Initial Concentration of Reactant A (A₀), Rate Constant of Reaction 2 (k₂) & Reaction Rate Constant 1 (k₁) and hit the calculate button. Here is how the Maximum Concentration of Intermediate B in First Order Consecutive Reaction calculation can be explained with given input values -> 6.3E-5 = 100000*(0.0089/5.67E-06)^(0.0089/(5.67E-06-0.0089)).

FAQ

What is Maximum Concentration of Intermediate B in First Order Consecutive Reaction?

The Maximum Concentration of Intermediate B in First Order Consecutive Reaction formula is defined as the maximum amount of the intermediate B that can be formed from the reactant in the reacting system and is represented as [B] = A₀*(k₂/k₁)^(k₂/(k₁-k₂)) or Concentration of B at Time t = Initial Concentration of Reactant A*(Rate Constant of Reaction 2/Reaction Rate Constant 1)^(Rate Constant of Reaction 2/(Reaction Rate Constant 1-Rate Constant of Reaction 2)). Initial Concentration of Reactant A is defined as the concentration of the reactant A at time t=0, Rate Constant of Reaction 2 is the proportionality constant relating to the rate of the chemical reaction to the conc. of the reactant or product in chemical reaction 2 & Reaction Rate Constant 1 is defined as proportionality constant relating to the rate of the chemical reaction to the conc. of reactant or product in reaction 1.

How to calculate Maximum Concentration of Intermediate B in First Order Consecutive Reaction?

The Maximum Concentration of Intermediate B in First Order Consecutive Reaction formula is defined as the maximum amount of the intermediate B that can be formed from the reactant in the reacting system is calculated using Concentration of B at Time t = Initial Concentration of Reactant A*(Rate Constant of Reaction 2/Reaction Rate Constant 1)^(Rate Constant of Reaction 2/(Reaction Rate Constant 1-Rate Constant of Reaction 2)). To calculate Maximum Concentration of Intermediate B in First Order Consecutive Reaction, you need Initial Concentration of Reactant A (A₀), Rate Constant of Reaction 2 (k₂) & Reaction Rate Constant 1 (k₁). With our tool, you need to enter the respective value for Initial Concentration of Reactant A, Rate Constant of Reaction 2 & Reaction Rate Constant 1 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 Concentration of B at Time t?

In this formula, Concentration of B at Time t uses Initial Concentration of Reactant A, Rate Constant of Reaction 2 & Reaction Rate Constant 1. We can use 2 other way(s) to calculate the same, which is/are as follows -

Concentration of B at Time t = Initial Concentration of Reactant A*(Reaction Rate Constant 1/(Rate Constant of Reaction 2-Reaction Rate Constant 1))*(exp(-Reaction Rate Constant 1*Time)-exp(-Rate Constant of Reaction 2*Time))
Concentration of B at Time t = Concentration of A at Time t*(Reaction Rate Constant 1/(Rate Constant of Reaction 2-Reaction Rate Constant 1))

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