Time of Completion for different Products for Second Order Reaction Calculator

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Second Order Reaction

Arrhenius Equation

Chain Reactions

Collision Theory

Collision Theory and Chain Reactions

Complex Reactions

Enzyme Kinetics

First Order Reaction

Important Formulas on Enzyme Kinetics

Important Formulas on Reversible Reaction

Temperature Coefficient

Transition State Theory

Zero Order Reaction

✖The Rate Constant for Second Order Reaction is defined as the average rate of the reaction per concentration of the reactant having power raised to 2.ⓘ Rate Constant for Second Order Reaction [K_second]			+10% -10%
✖The Initial Reactant A Concentration refers to the amount of reactant A present in the solvent before the considered process.ⓘ Initial Reactant A Concentration [C_AO]			+10% -10%
✖The Initial Reactant B Concentration refers to the amount of reactant B present in the solvent before the considered process.ⓘ Initial Reactant B Concentration [C_BO]			+10% -10%
✖The Concentration at time t of reactant A is defined as the concentration of reactant A after a certain time interval.ⓘ Concentration at Time t of Reactant A [ax]			+10% -10%
✖The Concentration at time t of reactant B is defined at the concentration of reactant b after a certain time interval.ⓘ Concentration at Time t of Reactant B [bx]			+10% -10%

✖The Time for completion is defined as the time required for a complete transformation of reactant into the product.ⓘ Time of Completion for different Products for Second Order Reaction [t_completion]

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Formula

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Time of Completion for different Products for Second Order Reaction

Formula

`"t"_{"completion"} = 2.303/("K"_{"second"}*("C"_{"AO"}-"C"_{"BO"}))*log10("C"_{"BO"}*("ax"))/("C"_{"AO"}*("bx"))`

Example

`"2.3E^-7s"=2.303/("0.51L/(mol*s)"*("10mol/L"-"7mol/L"))*log10("7mol/L"*("8mol/L"))/("10mol/L"*("5mol/L"))`

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Time of Completion for different Products for Second Order Reaction Solution

STEP 0: Pre-Calculation Summary

Formula Used

Time for completion = 2.303/(Rate Constant for Second Order Reaction*(Initial Reactant A Concentration-Initial Reactant B Concentration))*log10(Initial Reactant B Concentration*(Concentration at Time t of Reactant A))/(Initial Reactant A Concentration*(Concentration at Time t of Reactant B))
t_completion = 2.303/(K_second*(C_AO-C_BO))*log10(C_BO*(ax))/(C_AO*(bx))
This formula uses 1 Functions, 6 Variables

Functions Used

log10 - The common logarithm, also known as the base-10 logarithm or the decimal logarithm, is a mathematical function that is the inverse of the exponential function., log10(Number)

Variables Used

Time for completion - (Measured in Second) - The Time for completion is defined as the time required for a complete transformation of reactant into the product.
Rate Constant for Second Order Reaction - (Measured in Cubic Meter per Mole Second) - The Rate Constant for Second Order Reaction is defined as the average rate of the reaction per concentration of the reactant having power raised to 2.
Initial Reactant A Concentration - (Measured in Mole per Cubic Meter) - The Initial Reactant A Concentration refers to the amount of reactant A present in the solvent before the considered process.
Initial Reactant B Concentration - (Measured in Mole per Cubic Meter) - The Initial Reactant B Concentration refers to the amount of reactant B present in the solvent before the considered process.
Concentration at Time t of Reactant A - (Measured in Mole per Cubic Meter) - The Concentration at time t of reactant A is defined as the concentration of reactant A after a certain time interval.
Concentration at Time t of Reactant B - (Measured in Mole per Cubic Meter) - The Concentration at time t of reactant B is defined at the concentration of reactant b after a certain time interval.

STEP 1: Convert Input(s) to Base Unit

Rate Constant for Second Order Reaction: 0.51 Liter per Mole Second --> 0.00051 Cubic Meter per Mole Second (Check conversion here)
Initial Reactant A Concentration: 10 Mole per Liter --> 10000 Mole per Cubic Meter (Check conversion here)
Initial Reactant B Concentration: 7 Mole per Liter --> 7000 Mole per Cubic Meter (Check conversion here)
Concentration at Time t of Reactant A: 8 Mole per Liter --> 8000 Mole per Cubic Meter (Check conversion here)
Concentration at Time t of Reactant B: 5 Mole per Liter --> 5000 Mole per Cubic Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

t_completion = 2.303/(K_second*(C_AO-C_BO))*log10(C_BO*(ax))/(C_AO*(bx)) --> 2.303/(0.00051*(10000-7000))*log10(7000*(8000))/(10000*(5000))

Evaluating ... ...

t_completion = 2.33255908839154E-07

STEP 3: Convert Result to Output's Unit

2.33255908839154E-07 Second --> No Conversion Required

FINAL ANSWER

2.33255908839154E-07 ≈ 2.3E-7 Second <-- Time for completion

(Calculation completed in 00.004 seconds)

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< 15 Second Order Reaction Calculators

Time of Completion for different Products for Second Order Reaction

Go Time for completion = 2.303/(Rate Constant for Second Order Reaction*(Initial Reactant A Concentration-Initial Reactant B Concentration))*log10(Initial Reactant B Concentration*(Concentration at Time t of Reactant A))/(Initial Reactant A Concentration*(Concentration at Time t of Reactant B))

Rate Constant for different Products for Second Order Reaction

Go Rate Constant for First Order Reaction = 2.303/(Time for completion*(Initial Reactant A Concentration-Initial Reactant B Concentration))*log10(Initial Reactant B Concentration*(Concentration at Time t of Reactant A))/(Initial Reactant A Concentration*(Concentration at Time t of Reactant B))

Temperature in Arrhenius Equation for Second Order Reaction

Go Temperature in Arrhenius Eq for 2nd Order Reaction = Activation Energy/[R]*(ln(Frequency Factor from Arrhenius Eqn for 2nd Order/Rate Constant for Second Order Reaction))

Activation Energy for Second Order Reaction

Go Energy of Activation = [R]*Temperature_Kinetics*(ln(Frequency Factor from Arrhenius Equation)-ln(Rate Constant for Second Order Reaction))

Time of Completion for Same product for Second Order Reaction

Go Time for completion = 1/(Concentration at time t for second order*Rate Constant for Second Order Reaction)-1/(Initial Concentration for Second Order Reaction*Rate Constant for Second Order Reaction)

Rate Constant for Second Order Reaction from Arrhenius Equation

Go Rate Constant for Second Order Reaction = Frequency Factor from Arrhenius Eqn for 2nd Order*exp(-Activation Energy/([R]*Temperature for Second Order Reaction))

Arrhenius Constant for Second Order Reaction

Go Frequency Factor from Arrhenius Eqn for 2nd Order = Rate Constant for Second Order Reaction/exp(-Activation Energy/([R]*Temperature for Second Order Reaction))

Rate Constant for Same Product for Second Order Reaction

Go Rate Constant for Second Order Reaction = 1/(Concentration at time t for second order*Time for completion)-1/(Initial Concentration for Second Order Reaction*Time for completion)

Time for Completion for Same Product by Titration Method for Second Order Reaction

Go Time for completion = (1/(Volume at Time t*Rate Constant for Second Order Reaction))-(1/(Initial Reactant Volume*Rate Constant for Second Order Reaction))

Rate Constant for same product by Titration method for Second Order reaction

Go Rate Constant for Second Order Reaction = (1/(Volume at Time t*Time for completion))-(1/(Initial Reactant Volume*Time for completion))

Quarter life of Second Order Reaction

Go Quarter Life of Second Order Reaction = 1/(Initial Concentration*Rate Constant for Second Order Reaction)

Half Life of Second Order Reaction

Go Half Life of Second Order Reaction = 1/Reactant Concentration*Rate Constant for Second Order Reaction

Order of Bimolecular Reaction with respect to Reactant A

Go Power Raised to Reactant 1 = Overall Order-Power Raised to Reactant 2

Order of Bimolecular Reaction with respect to Reactant B

Go Power Raised to Reactant 2 = Overall Order-Power Raised to Reactant 1

Overall Order of Bimolecular Reaction

Go Overall Order = Power Raised to Reactant 1+Power Raised to Reactant 2

Time of Completion for different Products for Second Order Reaction Formula

What is second order reaction?

In second order reaction, the rate of the reaction is proportional to the second power of the concentration of the reactant if a single reactant is given. The inverse of the concentration of the reactant in second order reaction increases linearly with time.

How to Calculate Time of Completion for different Products for Second Order Reaction?

Time of Completion for different Products for Second Order Reaction calculator uses Time for completion = 2.303/(Rate Constant for Second Order Reaction*(Initial Reactant A Concentration-Initial Reactant B Concentration))*log10(Initial Reactant B Concentration*(Concentration at Time t of Reactant A))/(Initial Reactant A Concentration*(Concentration at Time t of Reactant B)) to calculate the Time for completion, The Time of completion for different products for second order reaction formula is defined as the time required for complete conversion of different reactants into the product. Time for completion is denoted by t_completion symbol.

How to calculate Time of Completion for different Products for Second Order Reaction using this online calculator? To use this online calculator for Time of Completion for different Products for Second Order Reaction, enter Rate Constant for Second Order Reaction (K_second), Initial Reactant A Concentration (C_AO), Initial Reactant B Concentration (C_BO), Concentration at Time t of Reactant A (ax) & Concentration at Time t of Reactant B (bx) and hit the calculate button. Here is how the Time of Completion for different Products for Second Order Reaction calculation can be explained with given input values -> 3.3E-8 = 2.303/(0.00051*(10000-7000))*log10(7000*(8000))/(10000*(5000)).

FAQ

What is Time of Completion for different Products for Second Order Reaction?

The Time of completion for different products for second order reaction formula is defined as the time required for complete conversion of different reactants into the product and is represented as t_completion = 2.303/(K_second*(C_AO-C_BO))*log10(C_BO*(ax))/(C_AO*(bx)) or Time for completion = 2.303/(Rate Constant for Second Order Reaction*(Initial Reactant A Concentration-Initial Reactant B Concentration))*log10(Initial Reactant B Concentration*(Concentration at Time t of Reactant A))/(Initial Reactant A Concentration*(Concentration at Time t of Reactant B)). The Rate Constant for Second Order Reaction is defined as the average rate of the reaction per concentration of the reactant having power raised to 2, The Initial Reactant A Concentration refers to the amount of reactant A present in the solvent before the considered process, The Initial Reactant B Concentration refers to the amount of reactant B present in the solvent before the considered process, The Concentration at time t of reactant A is defined as the concentration of reactant A after a certain time interval & The Concentration at time t of reactant B is defined at the concentration of reactant b after a certain time interval.

How to calculate Time of Completion for different Products for Second Order Reaction?

The Time of completion for different products for second order reaction formula is defined as the time required for complete conversion of different reactants into the product is calculated using Time for completion = 2.303/(Rate Constant for Second Order Reaction*(Initial Reactant A Concentration-Initial Reactant B Concentration))*log10(Initial Reactant B Concentration*(Concentration at Time t of Reactant A))/(Initial Reactant A Concentration*(Concentration at Time t of Reactant B)). To calculate Time of Completion for different Products for Second Order Reaction, you need Rate Constant for Second Order Reaction (K_second), Initial Reactant A Concentration (C_AO), Initial Reactant B Concentration (C_BO), Concentration at Time t of Reactant A (ax) & Concentration at Time t of Reactant B (bx). With our tool, you need to enter the respective value for Rate Constant for Second Order Reaction, Initial Reactant A Concentration, Initial Reactant B Concentration, Concentration at Time t of Reactant A & Concentration at Time t of Reactant B 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 Time for completion?

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

Time for completion = 1/(Concentration at time t for second order*Rate Constant for Second Order Reaction)-1/(Initial Concentration for Second Order Reaction*Rate Constant for Second Order Reaction)
Time for completion = (1/(Volume at Time t*Rate Constant for Second Order Reaction))-(1/(Initial Reactant Volume*Rate Constant for Second Order Reaction))

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