Showing posts with label Kp. Show all posts
Showing posts with label Kp. Show all posts

Sunday, October 29, 2023

Relationship between Homogeneous Equilibrium and the Law of Mass Action (Part C)

 Relationship between Homogeneous Equilibrium and the Law of Mass Action (Part C)::

Case C- In gaseous reaction when no of moles decreases:

To understand this case, suppose the formation of ammonia by Haber Process

Friday, October 27, 2023

Relationship between Homogeneous Equilibrium and the Law of Mass Action (Part B)

 

"Relationship between Homogeneous Equilibrium and the Law of Mass Action (Part B)"

Case B- In gaseous reaction when no of moles increases:

Suppose the decomposition of PCl5

"Relationship between Homogeneous Equilibrium and the Law of Mass Action (Part A)"

 

"Relationship between Homogeneous Equilibrium and the Law of Mass Action (Part A)"

The Law of Mass Action is a fundamental principle that governs the equilibrium of a chemical reaction. It states that the rate of a chemical reaction is directly proportional to the product of the concentrations (or activities) of the reactants, each raised to the power of their respective coefficients in the balanced chemical equation. This law applies to both homogeneous and heterogeneous equilibria.

Tuesday, October 24, 2023

"The Relationship Between Different Equilibrium Constants: Kp, Kc, Kx, and Kn"

 

"The Relationship Between Different Equilibrium Constants: Kp, Kc, Kx, and Kn"

Introduction:

Chemical equilibrium is a fascinating topic in the world of chemistry, where the balance between reactants and products in a chemical reaction is carefully maintained. To understand and quantify this balance, chemists rely on various equilibrium constants, such as Kp, Kc, Kx, and Kn. In this article,

Monday, October 23, 2023

"Understanding the Law of Mass Action in Chemical Equilibrium"

 

"Understanding the Law of Mass Action in Chemical Equilibrium"

Introduction:

In the realm of chemistry, equilibrium constants play a crucial role in determining the extent to which a chemical reaction proceeds. Among these constants, the Law of Mass Action is a fundamental principle that governs the behavior of reactants and products in a chemical equilibrium. 

Nomenclature of Alkanes (IUPAC Rules)

  Nomenclature of Alkanes (IUPAC Rules) : The IUPAC (International Union of Pure and Applied Chemistry) system provides systematic rules ...