Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B Calculator

✖Forward Reaction Rate Constant for 2nd Order is used to define the relationship between the molar concentration of the reactants and the rate of the chemical reaction in forward direction.ⓘ Forward Reaction Rate Constant for 2nd Order [k_f']			+10% -10%
✖Concentration of Reactant at Equilibrium is defined as the amount of reactant present when the reaction is at equilibrium condition.ⓘ Concentration of Reactant at Equilibrium [x_eq]			+10% -10%
✖Initial Concentration of Reactant B is defined as the initial concentration of the reactant B at time t=0.ⓘ Initial Concentration of Reactant B [B₀]			+10% -10%
✖Concentration of Product at Time t is defined as the amount of reactant that has been converted into product in a time interval of t.ⓘ Concentration of Product at Time t [x]			+10% -10%

✖Time for 2nd Order is used to defined as the period of time that is required for the reactant to given a certain amount of product in a chemical reaction.ⓘ Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B [t_2nd]

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Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B Solution

STEP 0: Pre-Calculation Summary

Formula Used

Time for 2nd Order = (1/Forward Reaction Rate Constant for 2nd Order)*(Concentration of Reactant at Equilibrium^2/(2*Initial Concentration of Reactant B*(Initial Concentration of Reactant B-Concentration of Reactant at Equilibrium)))*ln((Concentration of Product at Time t*(Initial Concentration of Reactant B-2*Concentration of Reactant at Equilibrium)+Initial Concentration of Reactant B*Concentration of Reactant at Equilibrium)/(Initial Concentration of Reactant B*(Concentration of Reactant at Equilibrium-Concentration of Product at Time t)))
t_2nd = (1/k_f')*(x_eq^2/(2*B₀*(B₀-x_eq)))*ln((x*(B₀-2*x_eq)+B₀*x_eq)/(B₀*(x_eq-x)))
This formula uses 1 Functions, 5 Variables

Functions Used

ln - The natural logarithm, also known as the logarithm to the base e, is the inverse function of the natural exponential function., ln(Number)

Variables Used

Time for 2nd Order - (Measured in Second) - Time for 2nd Order is used to defined as the period of time that is required for the reactant to given a certain amount of product in a chemical reaction.
Forward Reaction Rate Constant for 2nd Order - (Measured in Cubic Meter per Mole Second) - Forward Reaction Rate Constant for 2nd Order is used to define the relationship between the molar concentration of the reactants and the rate of the chemical reaction in forward direction.
Concentration of Reactant at Equilibrium - (Measured in Mole per Cubic Meter) - Concentration of Reactant at Equilibrium is defined as the amount of reactant present when the reaction is at equilibrium condition.
Initial Concentration of Reactant B - (Measured in Mole per Cubic Meter) - Initial Concentration of Reactant B is defined as the initial concentration of the reactant B at time t=0.
Concentration of Product at Time t - (Measured in Mole per Cubic Meter) - Concentration of Product at Time t is defined as the amount of reactant that has been converted into product in a time interval of t.

STEP 1: Convert Input(s) to Base Unit

Forward Reaction Rate Constant for 2nd Order: 0.00618 Liter per Mole Second --> 6.18E-06 Cubic Meter per Mole Second (Check conversion here)
Concentration of Reactant at Equilibrium: 70 Mole per Liter --> 70000 Mole per Cubic Meter (Check conversion here)
Initial Concentration of Reactant B: 80 Mole per Liter --> 80000 Mole per Cubic Meter (Check conversion here)
Concentration of Product at Time t: 27.5 Mole per Liter --> 27500 Mole per Cubic Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

t_2nd = (1/k_f')*(x_eq^2/(2*B₀*(B₀-x_eq)))*ln((x*(B₀-2*x_eq)+B₀*x_eq)/(B₀*(x_eq-x))) --> (1/6.18E-06)*(70000^2/(2*80000*(80000-70000)))*ln((27500*(80000-2*70000)+80000*70000)/(80000*(70000-27500)))

Evaluating ... ...

t_2nd = 74302.8642521726

STEP 3: Convert Result to Output's Unit

74302.8642521726 Second --> No Conversion Required

FINAL ANSWER

74302.8642521726 ≈ 74302.86 Second <-- Time for 2nd Order

(Calculation completed in 00.004 seconds)

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< Second Order Opposed by Second Order Reactions Calculators

Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B

LaTeX Go Time for 2nd Order = (1/Forward Reaction Rate Constant for 2nd Order)*(Concentration of Reactant at Equilibrium^2/(2*Initial Concentration of Reactant B*(Initial Concentration of Reactant B-Concentration of Reactant at Equilibrium)))*ln((Concentration of Product at Time t*(Initial Concentration of Reactant B-2*Concentration of Reactant at Equilibrium)+Initial Concentration of Reactant B*Concentration of Reactant at Equilibrium)/(Initial Concentration of Reactant B*(Concentration of Reactant at Equilibrium-Concentration of Product at Time t)))

Forward Rxn. Rate Const. for 2nd Order Opposed by 2nd Order Rxn. given Ini. Conc. of Reactant B

LaTeX Go Forward Reaction Rate Constant for 2nd Order = (1/Time)*(Concentration of Reactant at Equilibrium^2/(2*Initial Concentration of Reactant B*(Initial Concentration of Reactant B-Concentration of Reactant at Equilibrium)))*ln((Concentration of Product at Time t*(Initial Concentration of Reactant B-2*Concentration of Reactant at Equilibrium)+Initial Concentration of Reactant B*Concentration of Reactant at Equilibrium)/(Initial Concentration of Reactant B*(Concentration of Reactant at Equilibrium-Concentration of Product at Time t)))

Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc. of Reactant A

LaTeX Go Time = (1/Forward Reaction Rate Constant for 2nd Order)*(Concentration of Reactant at Equilibrium^2/(2*Initial Concentration of Reactant A*(Initial Concentration of Reactant A-Concentration of Reactant at Equilibrium)))*ln((Concentration of Product at Time t*(Initial Concentration of Reactant A-2*Concentration of Reactant at Equilibrium)+Initial Concentration of Reactant A*Concentration of Reactant at Equilibrium)/(Initial Concentration of Reactant A*(Concentration of Reactant at Equilibrium-Concentration of Product at Time t)))

Forward Rxn Rate Const for 2nd Order Opposed by 2nd Order Rxn given Ini Conc of Reactant A

LaTeX Go Forward Reaction Rate Constant given A = (1/Time)*(Concentration of Reactant at Equilibrium^2/(2*Initial Concentration of Reactant A*(Initial Concentration of Reactant A-Concentration of Reactant at Equilibrium)))*ln((Concentration of Product at Time t*(Initial Concentration of Reactant A-2*Concentration of Reactant at Equilibrium)+Initial Concentration of Reactant A*Concentration of Reactant at Equilibrium)/(Initial Concentration of Reactant A*(Concentration of Reactant at Equilibrium-Concentration of Product at Time t)))

< Important Formulas on Reversible Reaction Calculators

Reactant Concentration at given Time t

LaTeX Go Concentration of A at Time t = Initial Concentration of Reactant A*(Forward Reaction Rate Constant/(Forward Reaction Rate Constant+Backward Reaction Rate Constant))*((Backward Reaction Rate Constant/Forward Reaction Rate Constant)+exp(-(Forward Reaction Rate Constant+Backward Reaction Rate Constant)*Time))

Product Conc for 1st Order Opposed by 1st Order Rxn given Initial Conc of B greater than 0

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

Product Conc of First Order Opposed by First Order Reaction given Initial Conc of Reactant

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

Product Concentration of 1st Order Opposed by 1st Order Reaction at given Time t

LaTeX Go Concentration of Product at Time t = Concentration of Reactant at Equilibrium*(1-exp(-(Forward Reaction Rate Constant+Backward Reaction Rate Constant)*Time))

Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B Formula

LaTeX Go

What is an Opposing Reaction?

Opposing reactions or reversible reactions are those in which both forward and backward reaction takes place simultaneously. To start with, the rate of forward reaction is very large and it decreases as reactant concentration decreases with time. Similarly, initially the rate of backward reaction is slow and it increases as product concentration increases with time.
The state at which the rate of forward reaction equals the rate of backward reaction is called the equilibrium state.

How to Calculate Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B?

Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B calculator uses Time for 2nd Order = (1/Forward Reaction Rate Constant for 2nd Order)*(Concentration of Reactant at Equilibrium^2/(2*Initial Concentration of Reactant B*(Initial Concentration of Reactant B-Concentration of Reactant at Equilibrium)))*ln((Concentration of Product at Time t*(Initial Concentration of Reactant B-2*Concentration of Reactant at Equilibrium)+Initial Concentration of Reactant B*Concentration of Reactant at Equilibrium)/(Initial Concentration of Reactant B*(Concentration of Reactant at Equilibrium-Concentration of Product at Time t))) to calculate the Time for 2nd Order, The Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B formula is defined as the time interval required to convert a particular concentration reactant to a certain concentration of product in a Second Order Opposed by Second Order Reaction. Time for 2nd Order is denoted by t_2nd symbol.

How to calculate Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B using this online calculator? To use this online calculator for Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B, enter Forward Reaction Rate Constant for 2nd Order (k_f'), Concentration of Reactant at Equilibrium (x_eq), Initial Concentration of Reactant B (B₀) & Concentration of Product at Time t (x) and hit the calculate button. Here is how the Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B calculation can be explained with given input values -> 7.4E+10 = (1/6.18E-06)*(70000^2/(2*80000*(80000-70000)))*ln((27500*(80000-2*70000)+80000*70000)/(80000*(70000-27500))).

FAQ

What is Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B?

The Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B formula is defined as the time interval required to convert a particular concentration reactant to a certain concentration of product in a Second Order Opposed by Second Order Reaction and is represented as t_2nd = (1/k_f')*(x_eq^2/(2*B₀*(B₀-x_eq)))*ln((x*(B₀-2*x_eq)+B₀*x_eq)/(B₀*(x_eq-x))) or Time for 2nd Order = (1/Forward Reaction Rate Constant for 2nd Order)*(Concentration of Reactant at Equilibrium^2/(2*Initial Concentration of Reactant B*(Initial Concentration of Reactant B-Concentration of Reactant at Equilibrium)))*ln((Concentration of Product at Time t*(Initial Concentration of Reactant B-2*Concentration of Reactant at Equilibrium)+Initial Concentration of Reactant B*Concentration of Reactant at Equilibrium)/(Initial Concentration of Reactant B*(Concentration of Reactant at Equilibrium-Concentration of Product at Time t))). Forward Reaction Rate Constant for 2nd Order is used to define the relationship between the molar concentration of the reactants and the rate of the chemical reaction in forward direction, Concentration of Reactant at Equilibrium is defined as the amount of reactant present when the reaction is at equilibrium condition, Initial Concentration of Reactant B is defined as the initial concentration of the reactant B at time t=0 & Concentration of Product at Time t is defined as the amount of reactant that has been converted into product in a time interval of t.

How to calculate Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B?

The Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B formula is defined as the time interval required to convert a particular concentration reactant to a certain concentration of product in a Second Order Opposed by Second Order Reaction is calculated using Time for 2nd Order = (1/Forward Reaction Rate Constant for 2nd Order)*(Concentration of Reactant at Equilibrium^2/(2*Initial Concentration of Reactant B*(Initial Concentration of Reactant B-Concentration of Reactant at Equilibrium)))*ln((Concentration of Product at Time t*(Initial Concentration of Reactant B-2*Concentration of Reactant at Equilibrium)+Initial Concentration of Reactant B*Concentration of Reactant at Equilibrium)/(Initial Concentration of Reactant B*(Concentration of Reactant at Equilibrium-Concentration of Product at Time t))). To calculate Time taken for 2nd Order Opposed by 2nd Order Reaction given Initial Conc of Reactant B, you need Forward Reaction Rate Constant for 2nd Order (k_f'), Concentration of Reactant at Equilibrium (x_eq), Initial Concentration of Reactant B (B₀) & Concentration of Product at Time t (x). With our tool, you need to enter the respective value for Forward Reaction Rate Constant for 2nd Order, Concentration of Reactant at Equilibrium, Initial Concentration of Reactant B & Concentration of Product at Time t 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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