Ratio of Two Maximum Rate of Biomolecular Reaction Calculator

↳

⤿

Collision Theory

Arrhenius Equation

Chain Reactions

Collision Theory and Chain Reactions

Complex Reactions

Enzyme Kinetics

First Order Reaction

Important Formulas on Enzyme Kinetics

Important Formulas on Reversible Reaction

Second Order Reaction

Temperature Coefficient

Transition State Theory

Zero Order Reaction

✖Temperature 1 is defined as lower temperature at which chemical reaction proceed.ⓘ Temperature 1 [T₁]			+10% -10%
✖Temperature 2 is the higher temperature at which reaction proceeds in chemical kinetics.ⓘ Temperature 2 [T₂]			+10% -10%

✖Ratio of Two Maximum Rate of Biomolecular Reaction is defined as the ratio of two rate constant which directly proportional to the square root of the temperature.ⓘ Ratio of Two Maximum Rate of Biomolecular Reaction [rmax12_ratio]

⎘ Copy

👎

Formula

✖

Ratio of Two Maximum Rate of Biomolecular Reaction

Formula

`"rmax12"_{"ratio"} = ("T"_{"1"}/"T"_{"2"})^1/2`

Example

`"0.388889"=("350K"/"450K")^1/2`

Calculator

LaTeX

Reset

👍

Download Chemical Kinetics Formula PDF

Ratio of Two Maximum Rate of Biomolecular Reaction Solution

STEP 0: Pre-Calculation Summary

Formula Used

Ratio of Two Maximum Rate of Biomolecular Reaction = (Temperature 1/Temperature 2)^1/2
rmax12_ratio = (T₁/T₂)^1/2
This formula uses 3 Variables

Variables Used

Ratio of Two Maximum Rate of Biomolecular Reaction - Ratio of Two Maximum Rate of Biomolecular Reaction is defined as the ratio of two rate constant which directly proportional to the square root of the temperature.
Temperature 1 - (Measured in Kelvin) - Temperature 1 is defined as lower temperature at which chemical reaction proceed.
Temperature 2 - (Measured in Kelvin) - Temperature 2 is the higher temperature at which reaction proceeds in chemical kinetics.

STEP 1: Convert Input(s) to Base Unit

Temperature 1: 350 Kelvin --> 350 Kelvin No Conversion Required
Temperature 2: 450 Kelvin --> 450 Kelvin No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

rmax12_ratio = (T₁/T₂)^1/2 --> (350/450)^1/2

Evaluating ... ...

rmax12_ratio = 0.388888888888889

STEP 3: Convert Result to Output's Unit

0.388888888888889 --> No Conversion Required

FINAL ANSWER

0.388888888888889 ≈ 0.388889 <-- Ratio of Two Maximum Rate of Biomolecular Reaction

(Calculation completed in 00.004 seconds)

You are here -

Home » Chemistry » Chemical Kinetics » Collision Theory » Ratio of Two Maximum Rate of Biomolecular Reaction

Credits

Created by Torsha_Paul

University of Calcutta (CU), Kolkata

Torsha_Paul has created this Calculator and 200+ more calculators!

Verified by Soupayan banerjee

National University of Judicial Science (NUJS), Kolkata

Soupayan banerjee has verified this Calculator and 800+ more calculators!

< 4 Collision Theory Calculators

Number of Collision per Unit Volume per Unit Time between A and B

Go Number of Collision between A and B = (pi*((Closeness of Approach for Collision)^2)*Molecular Collision per Unit Volume per Unit Time*(((8*[BoltZ]*Temperature_Kinetics)/(pi*Reduced Mass))^1/2))

Ratio of Pre-Exponential Factor

Go Ratio of Pre Exponential Factor = (((Collision Diameter 1)^2)*(sqrt(Reduced Mass 2)))/(((Collision Diameter 2)^2)*(sqrt(Reduced Mass 1)))

Number of Collision per Unit Volume per Unit Time between Same Molecule

Go Molecular Collision = (1*pi*((Diameter of Molecule A)^2)*Average Speed of Gas*((Number of A Molecules Per Unit Volume of Vessel)^2))/1.414

Ratio of Two Maximum Rate of Biomolecular Reaction

Go Ratio of Two Maximum Rate of Biomolecular Reaction = (Temperature 1/Temperature 2)^1/2

< 8 Collision Theory and Chain Reactions Calculators

Concentration of Radical in Non-Stationary Chain Reactions

Go Concentration of Radical given nonCR = (Reaction Rate Constant for Initiation Step*Concentration of Reactant A)/(-Reaction Rate Constant for Propagation Step*(No. of Radicals Formed-1)*Concentration of Reactant A+(Rate Constant at Wall+Rate Constant within Gaseous Phase))

Concentration of Radical formed during Chain Propagation Step given kw and kg

Go Concentration of Radical given CP = (Reaction Rate Constant for Initiation Step*Concentration of Reactant A)/(Reaction Rate Constant for Propagation Step*(1-No. of Radicals Formed)*Concentration of Reactant A+(Rate Constant at Wall+Rate Constant within Gaseous Phase))

Concentration of Radical formed in Chain Reaction

Go Concentration of Radical given CR = (Reaction Rate Constant for Initiation Step*Concentration of Reactant A)/(Reaction Rate Constant for Propagation Step*(1-No. of Radicals Formed)*Concentration of Reactant A+Reaction Rate Constant for Termination Step)

Number of Collision per Unit Volume per Unit Time between A and B

Go Number of Collision between A and B = (pi*((Closeness of Approach for Collision)^2)*Molecular Collision per Unit Volume per Unit Time*(((8*[BoltZ]*Temperature_Kinetics)/(pi*Reduced Mass))^1/2))

Ratio of Pre-Exponential Factor

Go Ratio of Pre Exponential Factor = (((Collision Diameter 1)^2)*(sqrt(Reduced Mass 2)))/(((Collision Diameter 2)^2)*(sqrt(Reduced Mass 1)))

Concentration of Radical in Stationary Chain Reactions

Go Concentration of Radical given SCR = (Reaction Rate Constant for Initiation Step*Concentration of Reactant A)/(Rate Constant at Wall+Rate Constant within Gaseous Phase)

Number of Collision per Unit Volume per Unit Time between Same Molecule

Go Molecular Collision = (1*pi*((Diameter of Molecule A)^2)*Average Speed of Gas*((Number of A Molecules Per Unit Volume of Vessel)^2))/1.414

Ratio of Two Maximum Rate of Biomolecular Reaction

Go Ratio of Two Maximum Rate of Biomolecular Reaction = (Temperature 1/Temperature 2)^1/2

Ratio of Two Maximum Rate of Biomolecular Reaction Formula

Ratio of Two Maximum Rate of Biomolecular Reaction = (Temperature 1/Temperature 2)^1/2
rmax12_ratio = (T₁/T₂)^1/2

What is Collison Theory of Biomolecular Reaction ?

Rate Constant Using Collision Theory is defined as the rate constant for bimolecular gas-phase reactions which is equal to the rate of successful collisions.

How to Calculate Ratio of Two Maximum Rate of Biomolecular Reaction?

Ratio of Two Maximum Rate of Biomolecular Reaction calculator uses Ratio of Two Maximum Rate of Biomolecular Reaction = (Temperature 1/Temperature 2)^1/2 to calculate the Ratio of Two Maximum Rate of Biomolecular Reaction, Ratio of Two Maximum Rate of Biomolecular Reaction is defined as the ratio of two rate constant which directly proportional to the square root of the temperature. Ratio of Two Maximum Rate of Biomolecular Reaction is denoted by rmax12_ratio symbol.

How to calculate Ratio of Two Maximum Rate of Biomolecular Reaction using this online calculator? To use this online calculator for Ratio of Two Maximum Rate of Biomolecular Reaction, enter Temperature 1 (T₁) & Temperature 2 (T₂) and hit the calculate button. Here is how the Ratio of Two Maximum Rate of Biomolecular Reaction calculation can be explained with given input values -> 0.388889 = (350/450)^1/2.

FAQ

What is Ratio of Two Maximum Rate of Biomolecular Reaction?

Ratio of Two Maximum Rate of Biomolecular Reaction is defined as the ratio of two rate constant which directly proportional to the square root of the temperature and is represented as rmax12_ratio = (T₁/T₂)^1/2 or Ratio of Two Maximum Rate of Biomolecular Reaction = (Temperature 1/Temperature 2)^1/2. Temperature 1 is defined as lower temperature at which chemical reaction proceed & Temperature 2 is the higher temperature at which reaction proceeds in chemical kinetics.

How to calculate Ratio of Two Maximum Rate of Biomolecular Reaction?

Ratio of Two Maximum Rate of Biomolecular Reaction is defined as the ratio of two rate constant which directly proportional to the square root of the temperature is calculated using Ratio of Two Maximum Rate of Biomolecular Reaction = (Temperature 1/Temperature 2)^1/2. To calculate Ratio of Two Maximum Rate of Biomolecular Reaction, you need Temperature 1 (T₁) & Temperature 2 (T₂). With our tool, you need to enter the respective value for Temperature 1 & Temperature 2 and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

Home

FREE PDFs

🔍 Search