15.2.1 Origin of Color

Cards (44)

Transition metals are elements that have incomplete d-orbitals
What is one key characteristic of transition metals?
Ability to form colored complexes
Transition metals exhibit variable oxidation states due to their partially filled d-orbitals.
Match the metal type with its unique properties:
Transition Metals ↔️ Forms colored complexes, variable oxidation states
s-Block Metals ↔️ Highly reactive, forms ionic compounds
p-Block Metals ↔️ Wide range of properties, from semiconductors to nonmetals
Complex ions are formed when a central metal ion binds to one or more ligands through coordinate covalent bonds.
What type of bond is formed between a metal ion and a ligand in a complex ion?
Coordinate covalent bond
Coordinate covalent bonds are formed when ligands donate lone pairs of electrons to the metal ion.
What is the general electronic configuration of transition metals with partially filled d-orbitals?
$[noble gas] ns^{2} (n - 1)d^{x}$
Transition metals are elements with incomplete d-orbitals
Transition metals form colored complexes and have variable oxidation states.
What type of compounds do s-block metals typically form?
Ionic
Steps in the formation of complex ions
1️⃣ Ligands approach the metal ion
2️⃣ Coordinate covalent bonds form
3️⃣ The metal ion becomes part of a complex with characteristic geometry
Match the components of $[Cu(NH_{3})_{4}]^{2 + }$ with their roles: 
Cu²⁺ ↔️ Central metal ion
NH₃ ↔️ Ligands
What type of bonds are formed between ligands and a central metal ion in complex ions?
Coordinate covalent
In the complex ion $[Cu(NH_{3})_{4}]^{2 + }$ , the ligand is NH₃
What is the coordination number of Cu²⁺ in $[Cu(NH_{3})_{4}]^{2 + }$ ? 
4
In $[Cu(NH_{3})_{4}]^{2 + }$ , Cu²⁺ is the central metal ion
What is the role of NH₃ in $[Cu(NH_{3})_{4}]^{2 + }$ ? 
Ligand
The coordination number of Cu²⁺ in [Cu(NH_{3})_{4}]^{2 + }</latex> is 4
Complex ions are formed when a central metal ion binds to ligands through coordinate covalent bonds.
Steps in the formation of complex ions:
1️⃣ Ligands approach the metal ion
2️⃣ Coordinate covalent bonds form as ligands donate electron pairs
3️⃣ The metal ion becomes part of a complex ion with a characteristic geometry
Which ligands are present in the complex ion $[Cu(NH_{3})_{4}]^{2 + }$ ? 
NH₃
The complex ion $[Cu(NH_{3})_{4}]^{2 + }$ has a square planar geometry
What causes d-orbital splitting in transition metal complexes?
Ligands
In tetrahedral complexes, the $t_{2}$ orbitals have higher energy than the $e$ orbitals.
In octahedral complexes, the $e_{g}$ orbitals are higher in energy
What type of transitions are responsible for the color of transition metal complexes?
d-d Electronic transitions
The energy difference between d-orbitals determines which wavelengths of light are absorbed.
In which ion does an electron transition from $t_{2g}$ to $e_{g}$ result in color absorption in the visible spectrum? 
$Ti^{3 + }$
Transition metals have partially filled d-orbitals in their electronic configurations.
What are two unique properties of transition metals?
Colored complexes, variable oxidation states
Match the metal type with its unique properties:
Transition Metals ↔️ Forms colored complexes
s-Block Metals ↔️ Highly reactive
What characterizes the electronic configurations of transition metals?
Partially filled d-orbitals
Transition metals form colored complexes due to their variable oxidation states.
What is the defining feature of transition metals according to their electronic configuration?
Incomplete d-orbitals
p-Block metals have a wide range of properties due to their ns²npˣ electronic configuration.
What is the range of x in the electronic configuration of transition metals?
1 to 9
Steps in the formation of complex ions with ligands
1️⃣ Ligands approach the metal ion
2️⃣ Coordinate covalent bonds form
3️⃣ The metal ion becomes part of a complex ion
Complex ions are formed when a central metal ion binds to one or more ligands through coordinate covalent bonds.
The complex ion $[Cu(NH_{3})_{4}]^{2 + }$ has a square planar geometry and exhibits high stability.