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Time of Completion for different Products for Second Order Reaction Formula

GoTime of Completion for Same product for Second Order Reaction Formula

GoTime for Completion for Same Product by Titration Method for Second Order Reaction Formula

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The Time for completion is defined as the time required for a complete transformation of reactant into the product. Check FAQs

t completion = \frac{2.303}{K second \cdot (C AO - C BO)} \cdot \log 10 \frac{C BO \cdot (ax)}{C AO \cdot (bx)}

t_completion - Time for completion?K_second - Rate Constant for Second Order Reaction?C_AO - Initial Reactant A Concentration?C_BO - Initial Reactant B Concentration?ax - Concentration at Time t of Reactant A?bx - Concentration at Time t of Reactant B?

Time of Completion for different Products for Second Order Reaction Example

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Here is how the Time of Completion for different Products for Second Order Reaction equation looks like with Values.

Here is how the Time of Completion for different Products for Second Order Reaction equation looks like with Units.

Here is how the Time of Completion for different Products for Second Order Reaction equation looks like.

2.3E-7 = \frac{2.303}{0.51 \cdot (10 - 7)} \cdot \log 10 \frac{7 \cdot (8)}{10 \cdot (5)}

2.3E-7s = \frac{2.303}{0.51L/(mol*s) \cdot (10mol/L - 7mol/L)} \cdot \log 10 \frac{7mol/L \cdot (8mol/L)}{10mol/L \cdot (5mol/L)}

2.3E-7 = \frac{2.303}{0.51 \cdot (10 - 7)} \cdot \log 10 \frac{7 \cdot (8)}{10 \cdot (5)}

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Second Order Reaction » fx Time of Completion for different Products for Second Order Reaction

Time of Completion for different Products for Second Order Reaction Solution

Follow our step by step solution on how to calculate Time of Completion for different Products for Second Order Reaction?

FIRST Step Consider the formula

t completion = \frac{2.303}{K second \cdot (C AO - C BO)} \cdot \log 10 \frac{C BO \cdot (ax)}{C AO \cdot (bx)}

Next Step Substitute values of Variables

∴

t completion = \frac{2.303}{0.51L/(mol*s) \cdot (10mol/L - 7mol/L)} \cdot \log 10 \frac{7mol/L \cdot (8mol/L)}{10mol/L \cdot (5mol/L)}

Next Step Convert Units

∴

t completion = \frac{2.303}{0.0005m³/(mol*s) \cdot (10000mol/m³ - 7000mol/m³)} \cdot \log 10 \frac{7000mol/m³ \cdot (8000mol/m³)}{10000mol/m³ \cdot (5000mol/m³)}

Next Step Prepare to Evaluate

∴

t completion = \frac{2.303}{0.0005 \cdot (10000 - 7000)} \cdot \log 10 \frac{7000 \cdot (8000)}{10000 \cdot (5000)}

Next Step Evaluate

∴

t completion = 2.33255908839154E-07s

LAST Step Rounding Answer

∴

t completion = 2.3E-7s

Time of Completion for different Products for Second Order Reaction Formula Elements

Variables

Functions

Time for completion

The Time for completion is defined as the time required for a complete transformation of reactant into the product.

Symbol: t_completion

Measurement: TimeUnit: s

Note: Value can be positive or negative.

Formulas to find Time for completion

Rate Constant for Second 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.

Symbol: K_second

Measurement: Second Order Reaction Rate ConstantUnit: L/(mol*s)

Note: Value can be positive or negative.

Formulas to find Rate Constant for Second Order Reaction

Initial Reactant A Concentration

The Initial Reactant A Concentration refers to the amount of reactant A present in the solvent before the considered process.

Symbol: C_AO

Measurement: Molar ConcentrationUnit: mol/L

Note: Value can be positive or negative.

Formulas to find Initial Reactant A Concentration

Initial Reactant B Concentration

The Initial Reactant B Concentration refers to the amount of reactant B present in the solvent before the considered process.

Symbol: C_BO

Measurement: Molar ConcentrationUnit: mol/L

Note: Value can be positive or negative.

Formulas to find Initial Reactant B Concentration

Concentration at Time t of Reactant A

The Concentration at time t of reactant A is defined as the concentration of reactant A after a certain time interval.

Symbol: ax

Measurement: Molar ConcentrationUnit: mol/L

Note: Value can be positive or negative.

Formulas to find Concentration at Time t of Reactant A

Concentration at Time t of Reactant B

The Concentration at time t of reactant B is defined at the concentration of reactant b after a certain time interval.

Symbol: bx

Measurement: Molar ConcentrationUnit: mol/L

Note: Value can be positive or negative.

Formulas to find Concentration at Time t of Reactant B

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.

Syntax: log10(Number)

Other Formulas to find Time for completion

Go Time of Completion for Same product for Second Order Reaction

t completion = \frac{1}{ax t \cdot K second} - \frac{1}{a \cdot K second}

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

t completion = (\frac{1}{V t \cdot K second}) - (\frac{1}{V 0 \cdot K second})

Other formulas in Second Order Reaction category

Go Rate Constant for Same Product for Second Order Reaction

K second = \frac{1}{ax t \cdot t completion} - \frac{1}{a \cdot t completion}

Go Rate Constant for different Products for Second Order Reaction

K first = \frac{2.303}{t completion \cdot (C AO - C BO)} \cdot \log 10 \frac{C BO \cdot (ax)}{C AO \cdot (bx)}

Go Rate Constant for Second Order Reaction from Arrhenius Equation

K second = A factor-secondorder \cdot \exp (- \frac{E a1}{[R] \cdot T SecondOrder})

Go Arrhenius Constant for Second Order Reaction

A factor-secondorder = \frac{K second}{\exp (- \frac{E a1}{[R] \cdot T SecondOrder})}

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

Time of Completion for different Products for Second Order Reaction evaluator 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 evaluate 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 evaluate Time of Completion for different Products for Second Order Reaction using this online evaluator? To use this online evaluator 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.

FAQs on Time of Completion for different Products for Second Order Reaction

What is the formula to find Time of Completion for different Products for Second Order Reaction?

The formula of Time of Completion for different Products for Second Order Reaction is expressed as 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)). Here is an example- 3.3E-8 = 2.303/(0.00051*(10000-7000))*log10(7000*(8000))/(10000*(5000)).

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

With 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) we can find Time of Completion for different Products for Second Order Reaction using the formula - 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)). This formula also uses Common Logarithm (log10) function(s).

What are the other ways to Calculate Time for completion?

Here are the different ways to Calculate Time for completion-

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))

Can the Time of Completion for different Products for Second Order Reaction be negative?

Yes, the Time of Completion for different Products for Second Order Reaction, measured in Time can be negative.

Which unit is used to measure Time of Completion for different Products for Second Order Reaction?

Time of Completion for different Products for Second Order Reaction is usually measured using the Second[s] for Time. Millisecond[s], Microsecond[s], Nanosecond[s] are the few other units in which Time of Completion for different Products for Second Order Reaction can be measured.

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Time of Completion for different Products for Second Order Reaction Formula

​GoTime of Completion for Same product for Second Order Reaction Formula

​GoTime for Completion for Same Product by Titration Method for Second Order Reaction Formula

Time of Completion for different Products for Second Order Reaction Example

Time of Completion for different Products for Second Order Reaction Solution

Time of Completion for different Products for Second Order Reaction Formula Elements

Other Formulas to find Time for completion

Other formulas in Second Order Reaction category

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

FAQs on Time of Completion for different Products for Second Order Reaction

Variable Name

GoTime of Completion for Same product for Second Order Reaction Formula

GoTime for Completion for Same Product by Titration Method for Second Order Reaction Formula