Answer:
(a) [Fe(CN)₆]⁴⁻ - Hexacyanoferrate(II) ion
Central metal atom - Fe
Oxidation state of central metal Fe = +2
(b) [Co(NH₃)₆]³⁺ : Hexamminecobalt(III) ion
Central metal atom - Co
Oxidation state of central metal Co = +3
(c) [Co(CN)₅(OH₂)]²⁻ : Aquapentacyanidocobalt(III) ion
Central metal atom - Co
Oxidation state of central metal Co = +3
(d) [Co(NH₃)₅(SO₄)]⁺ : Pentaamminesulfatocobalt(III) ion
Central metal atom - Co
Oxidation state of central metal Co = +3
Explanation:
Oxidation number, also known as oxidation state, describes the number of electrons lost or gained by a chemical element.
(a) [Fe(CN)₆]⁴⁻ - Hexacyanoferrate(II) ion
Central metal atom - Fe
Let the oxidation state of Fe = x
Charge on CN⁻ ligand = (-1)
x + (-1) × 6 = -4
⇒ x = -4 + 6 = +2
<u>Oxidation state of Fe: x = +2</u>
(b) [Co(NH₃)₆]³⁺ : Hexamminecobalt(III) ion
Central metal atom - Co
Let the oxidation state of Co = x
Charge on NH₃ ligand = 0
x + (0) × 6 = +3
⇒ x = +3
<u>Oxidation state of Co: x = +3</u>
(c) [Co(CN)₅(OH₂)]²⁻ : Aquapentacyanidocobalt(III) ion
Central metal atom - Co
Let the oxidation state of Co = x
Charge on CN⁻ ligand = -1
Charge on H₂O ligand = 0
x + (-1) × 5 + 0 × 1 = -2
⇒ x = +3
<u>Oxidation state of Co: x = +3</u>
(d) [Co(NH₃)₅(SO₄)]⁺ : Pentaamminesulfatocobalt(III) ion
Central metal atom - Co
Let the oxidation state of Co = x
Charge on NH₃ ligand = 0
Charge on SO₄²⁻ ligand = -2
x + (0) × 5 + (-2) × 1 = +1
⇒ x = +3
<u>Oxidation state of Co: x = +3</u>
