5.5.2 Ligand substitution reactions

Cards (53)

The stability constant (K) measures the equilibrium constant for the formation of the complex
In the substitution of [Fe(H₂O)₆]³⁺ by NH₃, which ligand is displaced?
H₂O
What type of intermediate is formed in the associative mechanism of ligand substitution reactions?
7-coordinate
Strong field ligands favor associative substitution due to their ability to form stable complexes. 
True
Match the ligand strength with an example:
Strong Field ↔️ CN⁻
Weak Field ↔️ Cl⁻
Ligand substitution reactions can occur through two main pathways: associative and dissociative. 
True
In the associative mechanism, the incoming ligand first forms a 7-coordinate intermediate.
What two factors determine which pathway a ligand substitution reaction follows?
Ligand field strength and stability constants
Stronger ligands increase the rate of ligand substitution reactions. 
True
Arrange the following factors in order of their effect on reaction rate:
1️⃣ Ligand Strength
2️⃣ Concentration
3️⃣ Temperature
4️⃣ Steric Hindrance
In the associative mechanism, the rate-determining step involves the formation of the 7-coordinate intermediate.
Strong field ligands and high coordination numbers favor the associative mechanism. 
True
Match the term with its definition:
Ligand Exchange ↔️ One ligand displaces another
Stability Constant (K) ↔️ Measures equilibrium for complex formation
CN⁻ and NH₃ are examples of strong field ligands. 
True
In the substitution reaction of [Fe(H₂O)₆]³⁺ by NH₃, the stronger field ligand NH₃ displaces H₂O.
In a ligand substitution reaction, a stronger field ligand replaces a weaker field ligand.
True
Strong field ligands favor associative substitution mechanisms. 
True
What effect does steric hindrance have on the rate of ligand substitution reactions?
Decreases it
Dissociative mechanisms create a 5-coordinate intermediate. 
True
What is the key difference between cis and trans isomers in coordination complexes?
Ligand arrangement
Smaller ligands in a coordination complex favor the formation of the cis isomer due to lower steric hindrance. 
True
What is a ligand substitution reaction?
Ligand replacement in a complex
Strong field ligands such as CN⁻ and NH₃ are examples of ligands that bind tightly to metal ions. 
True
NH₃ displaces H₂O in [Fe(H₂O)₆]³⁺ because it has a stronger field strength. 
True
In the dissociative mechanism, the leaving ligand first creates a 5-coordinate intermediate
Steps in the associative mechanism of ligand substitution reactions
1️⃣ Incoming ligand associates with the complex
2️⃣ 7-coordinate intermediate is formed
3️⃣ Rearrangement to expel the leaving ligand
What does a higher stability constant indicate about a ligand's binding strength?
Stronger binding strength
The dissociative mechanism involves the formation of a 5-coordinate intermediate. 
True
The stability constant (K) measures the equilibrium constant for complex formation.
How does higher concentration of both the complex and incoming ligand affect the reaction rate?
Increases reaction rate
Why do larger ligands reduce the reaction rate of ligand substitution reactions?
Increased steric hindrance
What is the rate-determining step in the dissociative mechanism?
Ligand dissociation
A ligand substitution reaction involves the replacement of one ligand by another in a coordination complex.
What does the stability constant (K) indicate about ligand binding?
Strength of ligand binding
What are examples of weak field ligands?
H₂O and Cl⁻
Which ligand is an example of a strong field ligand?
CN⁻
A ligand substitution reaction is governed by the relative strengths of the ligands
The stability constant (K) measures the equilibrium constant for complex formation
Steps in the associative mechanism of ligand substitution
1️⃣ Incoming ligand associates
2️⃣ Forms a 7-coordinate intermediate
3️⃣ Rearrangement expels the leaving ligand
Match the isomer type with its stability:
Cis ↔️ Lower stability
Trans ↔️ Higher stability