Relation between different Equilibrium Constants Solution

STEP 0: Pre-Calculation Summary
Formula Used
Equilibrium Constant for Partial Pressure = Equilibrium Constant*(([R]*Absolute Temperature)^Change in Number of Moles)
Kp = Kc*(([R]*Tabs)^Δn)
This formula uses 1 Constants, 4 Variables
Constants Used
[R] - Universal gas constant Value Taken As 8.31446261815324
Variables Used
Equilibrium Constant for Partial Pressure - (Measured in Mole per Cubic Meter) - Equilibrium constant for partial pressure is the value of its reaction quotient at chemical equilibrium with respect to partial pressure.
Equilibrium Constant - (Measured in Mole per Cubic Meter) - Equilibrium Constant is the value of its reaction quotient at chemical equilibrium.
Absolute Temperature - Absolute Temperature is temperature measured using the Kelvin scale where zero is absolute zero.
Change in Number of Moles - (Measured in Mole) - Change in Number of Moles is the difference of moles of products and reactants.
STEP 1: Convert Input(s) to Base Unit
Equilibrium Constant: 0.09 Mole per Liter --> 90 Mole per Cubic Meter (Check conversion ​here)
Absolute Temperature: 273 --> No Conversion Required
Change in Number of Moles: 4 Mole --> 4 Mole No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Kp = Kc*(([R]*Tabs)^Δn) --> 90*(([R]*273)^4)
Evaluating ... ...
Kp = 2.38907529775675E+15
STEP 3: Convert Result to Output's Unit
2.38907529775675E+15 Mole per Cubic Meter -->2389075297756.75 Mole per Liter (Check conversion ​here)
FINAL ANSWER
2389075297756.75 2.4E+12 Mole per Liter <-- Equilibrium Constant for Partial Pressure
(Calculation completed in 00.004 seconds)

Credits

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Created by Akshada Kulkarni
National Institute of Information Technology (NIIT), Neemrana
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College Of Engineering (COEP), Pune
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Relationship between Different Equilibrium Constants Calculators

Equilibrium Mole Fraction Constant given Equilibrium Constant
​ LaTeX ​ Go Equilibrium Constant for Mole Fraction = (Equilibrium Constant*(([R]*Absolute Temperature)^Change in Number of Moles))/(Total Pressure^Change in Number of Moles)
Equilibrium Constant given Equilibrium Partial Pressure Constant
​ LaTeX ​ Go Equilibrium Constant = Equilibrium Constant for Partial Pressure/(([R]*Absolute Temperature)^Change in Number of Moles)
Relation between different Equilibrium Constants
​ LaTeX ​ Go Equilibrium Constant for Partial Pressure = Equilibrium Constant*(([R]*Absolute Temperature)^Change in Number of Moles)
Equilibrium Mole Fraction Constant given Equilibrium Partial Pressure Constant
​ LaTeX ​ Go Equilibrium Constant for Mole Fraction = Equilibrium Constant for Partial Pressure/(Total Pressure^Change in Number of Moles)

Relation between different Equilibrium Constants Formula

​LaTeX ​Go
Equilibrium Constant for Partial Pressure = Equilibrium Constant*(([R]*Absolute Temperature)^Change in Number of Moles)
Kp = Kc*(([R]*Tabs)^Δn)

What is equilibrium constant?

Equilibrium constant is defined as the product of concentration of products at equilibrium by the product of concentration of reactants at equilibrium. This representation is known as equilibrium law or chemical equilibrium. The thermodynamically correct equilibrium constant expression relates the activities of all of the species present in the reaction.

How to Calculate Relation between different Equilibrium Constants?

Relation between different Equilibrium Constants calculator uses Equilibrium Constant for Partial Pressure = Equilibrium Constant*(([R]*Absolute Temperature)^Change in Number of Moles) to calculate the Equilibrium Constant for Partial Pressure, The Relation between different equilibrium constants is defined as the correlation of equilibrium constant with respect to partial pressure and equilibrium at absolute temperature. Equilibrium Constant for Partial Pressure is denoted by Kp symbol.

How to calculate Relation between different Equilibrium Constants using this online calculator? To use this online calculator for Relation between different Equilibrium Constants, enter Equilibrium Constant (Kc), Absolute Temperature (Tabs) & Change in Number of Moles (Δn) and hit the calculate button. Here is how the Relation between different Equilibrium Constants calculation can be explained with given input values -> 1.6E+12 = 90*(([R]*273)^4).

FAQ

What is Relation between different Equilibrium Constants?
The Relation between different equilibrium constants is defined as the correlation of equilibrium constant with respect to partial pressure and equilibrium at absolute temperature and is represented as Kp = Kc*(([R]*Tabs)^Δn) or Equilibrium Constant for Partial Pressure = Equilibrium Constant*(([R]*Absolute Temperature)^Change in Number of Moles). Equilibrium Constant is the value of its reaction quotient at chemical equilibrium, Absolute Temperature is temperature measured using the Kelvin scale where zero is absolute zero & Change in Number of Moles is the difference of moles of products and reactants.
How to calculate Relation between different Equilibrium Constants?
The Relation between different equilibrium constants is defined as the correlation of equilibrium constant with respect to partial pressure and equilibrium at absolute temperature is calculated using Equilibrium Constant for Partial Pressure = Equilibrium Constant*(([R]*Absolute Temperature)^Change in Number of Moles). To calculate Relation between different Equilibrium Constants, you need Equilibrium Constant (Kc), Absolute Temperature (Tabs) & Change in Number of Moles (Δn). With our tool, you need to enter the respective value for Equilibrium Constant, Absolute Temperature & Change in Number of Moles 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 Equilibrium Constant for Partial Pressure?
In this formula, Equilibrium Constant for Partial Pressure uses Equilibrium Constant, Absolute Temperature & Change in Number of Moles. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Equilibrium Constant for Partial Pressure = Equilibrium Constant for Mole Fraction*(Total Pressure^Change in Number of Moles)
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