Equilibrium Conversion of Reaction at Initial Temperature Solution

STEP 0: Pre-Calculation Summary
Formula Used
Thermodynamic Constant at Initial Temperature = Thermodynamic Constant at Final Temperature/exp(-(Heat of Reaction per Mole/[R])*(1/Final Temperature for Equilibrium Conversion-1/Initial Temperature for Equilibrium Conversion))
K1 = K2/exp(-(ΔHr/[R])*(1/T2-1/T1))
This formula uses 1 Constants, 1 Functions, 5 Variables
Constants Used
[R] - Universal gas constant Value Taken As 8.31446261815324
Functions Used
exp - n an exponential function, the value of the function changes by a constant factor for every unit change in the independent variable., exp(Number)
Variables Used
Thermodynamic Constant at Initial Temperature - Thermodynamic Constant at Initial Temperature is the equilibrium constant attained at initial temperature of the reactant.
Thermodynamic Constant at Final Temperature - Thermodynamic Constant at Final Temperature is the equilibrium constant attained at final temperature of reactant.
Heat of Reaction per Mole - (Measured in Joule Per Mole) - The Heat of Reaction per Mole, also known as the enthalpy of reaction, is the heat energy released or absorbed during a chemical reaction at constant pressure.
Final Temperature for Equilibrium Conversion - (Measured in Kelvin) - Final Temperature for Equilibrium Conversion is the temperature attained by the reactant at the end stage.
Initial Temperature for Equilibrium Conversion - (Measured in Kelvin) - Initial Temperature for Equilibrium Conversion is the temperature attained by the reactant at the starting stage.
STEP 1: Convert Input(s) to Base Unit
Thermodynamic Constant at Final Temperature: 0.63 --> No Conversion Required
Heat of Reaction per Mole: -955 Joule Per Mole --> -955 Joule Per Mole No Conversion Required
Final Temperature for Equilibrium Conversion: 368 Kelvin --> 368 Kelvin No Conversion Required
Initial Temperature for Equilibrium Conversion: 436 Kelvin --> 436 Kelvin No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
K1 = K2/exp(-(ΔHr/[R])*(1/T2-1/T1)) --> 0.63/exp(-((-955)/[R])*(1/368-1/436))
Evaluating ... ...
K1 = 0.600066558054839
STEP 3: Convert Result to Output's Unit
0.600066558054839 --> No Conversion Required
FINAL ANSWER
0.600066558054839 0.600067 <-- Thermodynamic Constant at Initial Temperature
(Calculation completed in 00.004 seconds)

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Temperature and Pressure Effects Calculators

Equilibrium Conversion of Reaction at Initial Temperature
​ Go Thermodynamic Constant at Initial Temperature = Thermodynamic Constant at Final Temperature/exp(-(Heat of Reaction per Mole/[R])*(1/Final Temperature for Equilibrium Conversion-1/Initial Temperature for Equilibrium Conversion))
Equilibrium Conversion of Reaction at Final Temperature
​ Go Thermodynamic Constant at Final Temperature = Thermodynamic Constant at Initial Temperature*exp(-(Heat of Reaction per Mole/[R])*(1/Final Temperature for Equilibrium Conversion-1/Initial Temperature for Equilibrium Conversion))
Reactant Conversion at Adiabatic Conditions
​ Go Reactant Conversion = (Mean Specific Heat of Unreacted Stream*Change in Temperature)/(-Heat of Reaction at Initial Temperature-(Mean Specific Heat of Product Stream-Mean Specific Heat of Unreacted Stream)*Change in Temperature)
Reactant Conversion at Non Adiabatic Conditions
​ Go Reactant Conversion = ((Mean Specific Heat of Unreacted Stream*Change in Temperature)-Total Heat)/(-Heat of Reaction per Mole at Temperature T2)

Equilibrium Conversion of Reaction at Initial Temperature Formula

Thermodynamic Constant at Initial Temperature = Thermodynamic Constant at Final Temperature/exp(-(Heat of Reaction per Mole/[R])*(1/Final Temperature for Equilibrium Conversion-1/Initial Temperature for Equilibrium Conversion))
K1 = K2/exp(-(ΔHr/[R])*(1/T2-1/T1))

What is Equilibrium Conversion?

Equilibrium conversion is a term used in chemical kinetics to describe the extent to which a chemical reaction has progressed towards equilibrium. It represents the fraction or percentage of reactants that have been converted into products at the equilibrium state.

What are Temperature and Pressure Effects ?

Temperature and pressure are two crucial factors that can significantly impact chemical reactions. Their effects on chemical reactions are fundamental and play a vital role in reaction kinetics, equilibrium, and overall reaction outcomes.

How to Calculate Equilibrium Conversion of Reaction at Initial Temperature?

Equilibrium Conversion of Reaction at Initial Temperature calculator uses Thermodynamic Constant at Initial Temperature = Thermodynamic Constant at Final Temperature/exp(-(Heat of Reaction per Mole/[R])*(1/Final Temperature for Equilibrium Conversion-1/Initial Temperature for Equilibrium Conversion)) to calculate the Thermodynamic Constant at Initial Temperature, The Equilibrium Conversion of Reaction at Initial Temperature formula is defined as thermodynamic equilibrium attained in the reaction, when there is change in the temperature, expressed in terms of the equilibrium constant and the initial concentration of reactants and products. Thermodynamic Constant at Initial Temperature is denoted by K1 symbol.

How to calculate Equilibrium Conversion of Reaction at Initial Temperature using this online calculator? To use this online calculator for Equilibrium Conversion of Reaction at Initial Temperature, enter Thermodynamic Constant at Final Temperature (K2), Heat of Reaction per Mole (ΔHr), Final Temperature for Equilibrium Conversion (T2) & Initial Temperature for Equilibrium Conversion (T1) and hit the calculate button. Here is how the Equilibrium Conversion of Reaction at Initial Temperature calculation can be explained with given input values -> 0.598087 = 0.63/exp(-((-955)/[R])*(1/368-1/436)).

FAQ

What is Equilibrium Conversion of Reaction at Initial Temperature?
The Equilibrium Conversion of Reaction at Initial Temperature formula is defined as thermodynamic equilibrium attained in the reaction, when there is change in the temperature, expressed in terms of the equilibrium constant and the initial concentration of reactants and products and is represented as K1 = K2/exp(-(ΔHr/[R])*(1/T2-1/T1)) or Thermodynamic Constant at Initial Temperature = Thermodynamic Constant at Final Temperature/exp(-(Heat of Reaction per Mole/[R])*(1/Final Temperature for Equilibrium Conversion-1/Initial Temperature for Equilibrium Conversion)). Thermodynamic Constant at Final Temperature is the equilibrium constant attained at final temperature of reactant, The Heat of Reaction per Mole, also known as the enthalpy of reaction, is the heat energy released or absorbed during a chemical reaction at constant pressure, Final Temperature for Equilibrium Conversion is the temperature attained by the reactant at the end stage & Initial Temperature for Equilibrium Conversion is the temperature attained by the reactant at the starting stage.
How to calculate Equilibrium Conversion of Reaction at Initial Temperature?
The Equilibrium Conversion of Reaction at Initial Temperature formula is defined as thermodynamic equilibrium attained in the reaction, when there is change in the temperature, expressed in terms of the equilibrium constant and the initial concentration of reactants and products is calculated using Thermodynamic Constant at Initial Temperature = Thermodynamic Constant at Final Temperature/exp(-(Heat of Reaction per Mole/[R])*(1/Final Temperature for Equilibrium Conversion-1/Initial Temperature for Equilibrium Conversion)). To calculate Equilibrium Conversion of Reaction at Initial Temperature, you need Thermodynamic Constant at Final Temperature (K2), Heat of Reaction per Mole (ΔHr), Final Temperature for Equilibrium Conversion (T2) & Initial Temperature for Equilibrium Conversion (T1). With our tool, you need to enter the respective value for Thermodynamic Constant at Final Temperature, Heat of Reaction per Mole, Final Temperature for Equilibrium Conversion & Initial Temperature for Equilibrium Conversion 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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