Colored Compounds ↔️ D-d electron transitions absorb specific wavelengths of light
Arrange the steps in the formation of colored compounds by transition metals:
1️⃣ Light interacts with the transition metal compound
2️⃣ Electrons in d-orbitals absorb specific wavelengths
3️⃣ Electrons are promoted to higher energy d-orbitals
4️⃣ Selective absorption of light results in color
What type of light is absorbed by transition metal compounds to cause d-d electron transitions?
Specific wavelengths of light
The selective absorption of light by d-d electron transitions gives transition metal compounds their characteristic color.
True
Iron catalyzes the Haber process by adsorbing nitrogen and hydrogen molecules on its surface.
True
Iron (Fe) has an electronic configuration of [Ar] 3d^6 4s^2.
True
What determines the specific color of a transition metal compound?
Selective absorption of light
The electronic configuration of transition metals is characterized by partially filled d-orbitals, unlike the fully filled s-orbitals of main group elements.
True
Why can transition metals form multiple stable oxidation states?
Close energies of 3d and 4s electrons
What causes transition metal compounds to exhibit color?
d-d electron transitions
Transition metals have partially filled d-orbitals
Transition metals are excellent catalysts due to their partially filled d-orbitals
Transition metals are defined as elements with a partially filled d-orbital
Why do transition metals exhibit variable oxidation states?
Relatively close energies of 3d and 4s electrons
Match the complex ion with its coordination number and geometry: