Standard Enthalpy at Initial Temperature T1 Solution

STEP 0: Pre-Calculation Summary
Formula Used
Change in Enthalpy = (2.303*[R]*Initial Temperature at Equilibrium)*((Change in Entropy/(2.303*[R]))-log10(Equilibrium constant 1))
ΔH = (2.303*[R]*T1)*((ΔS/(2.303*[R]))-log10(K1))
This formula uses 1 Constants, 1 Functions, 4 Variables
Constants Used
[R] - Universal gas constant Value Taken As 8.31446261815324
Functions Used
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., log10(Number)
Variables Used
Change in Enthalpy - (Measured in Joule per Kilogram) - Change in enthalpy is the thermodynamic quantity equivalent to the total difference between the heat content of a system.
Initial Temperature at Equilibrium - (Measured in Kelvin) - Initial Temperature at Equilibrium is the degree or intensity of heat present at the initial stage of the system during equilibrium.
Change in Entropy - (Measured in Joule per Kilogram K) - Change in entropy is the thermodynamic quantity equivalent to the total difference between the entropy of a system.
Equilibrium constant 1 - Equilibrium constant 1 is the value of its reaction quotient at chemical equilibrium, at absolute temperature T1.
STEP 1: Convert Input(s) to Base Unit
Initial Temperature at Equilibrium: 80 Kelvin --> 80 Kelvin No Conversion Required
Change in Entropy: 220 Joule per Kilogram K --> 220 Joule per Kilogram K No Conversion Required
Equilibrium constant 1: 0.026 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
ΔH = (2.303*[R]*T1)*((ΔS/(2.303*[R]))-log10(K1)) --> (2.303*[R]*80)*((220/(2.303*[R]))-log10(0.026))
Evaluating ... ...
ΔH = 20028.0335266248
STEP 3: Convert Result to Output's Unit
20028.0335266248 Joule per Kilogram --> No Conversion Required
FINAL ANSWER
20028.0335266248 20028.03 Joule per Kilogram <-- Change in Enthalpy
(Calculation completed in 00.004 seconds)

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Thermodynamics in Chemical Equilibrium Calculators

Gibbs Free Energy given Equilibrium Constant due to Pressure
​ LaTeX ​ Go Gibbs Free Energy = -2.303*[R]*Temperature*ln(Equilibrium Constant for Partial Pressure)
Temperature of Reaction given Equilibrium Constant and Gibbs Energy
​ LaTeX ​ Go Temperature = Gibbs Free Energy/(-2.303*[R]*log10(Equilibrium Constant))
Gibbs Free Energy given Equilibrium Constant
​ LaTeX ​ Go Gibbs Free Energy = -2.303*[R]*Temperature*log10(Equilibrium Constant)
Equilibrium constant given Gibbs free energy
​ LaTeX ​ Go Equilibrium Constant = 10^(-(Gibbs Free Energy/(2.303*[R]*Temperature)))

Standard Enthalpy at Initial Temperature T1 Formula

​LaTeX ​Go
Change in Enthalpy = (2.303*[R]*Initial Temperature at Equilibrium)*((Change in Entropy/(2.303*[R]))-log10(Equilibrium constant 1))
ΔH = (2.303*[R]*T1)*((ΔS/(2.303*[R]))-log10(K1))

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 Standard Enthalpy at Initial Temperature T1?

Standard Enthalpy at Initial Temperature T1 calculator uses Change in Enthalpy = (2.303*[R]*Initial Temperature at Equilibrium)*((Change in Entropy/(2.303*[R]))-log10(Equilibrium constant 1)) to calculate the Change in Enthalpy, The Standard enthalpy at initial temperature T1 formula is defined as the difference in enthalpy between products and reactants of a chemical reaction. Change in Enthalpy is denoted by ΔH symbol.

How to calculate Standard Enthalpy at Initial Temperature T1 using this online calculator? To use this online calculator for Standard Enthalpy at Initial Temperature T1, enter Initial Temperature at Equilibrium (T1), Change in Entropy (ΔS) & Equilibrium constant 1 (K1) and hit the calculate button. Here is how the Standard Enthalpy at Initial Temperature T1 calculation can be explained with given input values -> 20028.03 = (2.303*[R]*80)*((220/(2.303*[R]))-log10(0.026)).

FAQ

What is Standard Enthalpy at Initial Temperature T1?
The Standard enthalpy at initial temperature T1 formula is defined as the difference in enthalpy between products and reactants of a chemical reaction and is represented as ΔH = (2.303*[R]*T1)*((ΔS/(2.303*[R]))-log10(K1)) or Change in Enthalpy = (2.303*[R]*Initial Temperature at Equilibrium)*((Change in Entropy/(2.303*[R]))-log10(Equilibrium constant 1)). Initial Temperature at Equilibrium is the degree or intensity of heat present at the initial stage of the system during equilibrium, Change in entropy is the thermodynamic quantity equivalent to the total difference between the entropy of a system & Equilibrium constant 1 is the value of its reaction quotient at chemical equilibrium, at absolute temperature T1.
How to calculate Standard Enthalpy at Initial Temperature T1?
The Standard enthalpy at initial temperature T1 formula is defined as the difference in enthalpy between products and reactants of a chemical reaction is calculated using Change in Enthalpy = (2.303*[R]*Initial Temperature at Equilibrium)*((Change in Entropy/(2.303*[R]))-log10(Equilibrium constant 1)). To calculate Standard Enthalpy at Initial Temperature T1, you need Initial Temperature at Equilibrium (T1), Change in Entropy (ΔS) & Equilibrium constant 1 (K1). With our tool, you need to enter the respective value for Initial Temperature at Equilibrium, Change in Entropy & Equilibrium constant 1 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 Change in Enthalpy?
In this formula, Change in Enthalpy uses Initial Temperature at Equilibrium, Change in Entropy & Equilibrium constant 1. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Change in Enthalpy = Gibbs Free Energy+(Temperature*Change in Entropy)
  • Change in Enthalpy = (Temperature*Change in Entropy)-(2.303*[R]*Temperature*log10(Equilibrium Constant))
  • Change in Enthalpy = (2.303*[R]*Final Temperature at Equilibrium)*((Change in Entropy/(2.303*[R]))-log10(Equilibrium constant 2))
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