Concept explainers
(a)
Interpretation: The name of the given ions or compounds has to be determined.
Concept introduction:
Coordination compounds: The compounds having coordination covalent bonds which form when metal ions react with polar molecules or anions.
Ligands: The ions or molecules that forms coordination covalent bond with metal ions in a coordination compound. Ligands should have minimum one lone pair of electron, where it donates two electrons to the metal. Metal atom accepts the electron pair from a ligand forming a coordination bond.
Monodentate ligand is ligands which donate only one pair of electrons to form bond with metal. It only makes one bond with metal. Polydentate ligand forms two or more coordination bond with metal ions to form a complex.
Oxidation number: The total number of electrons in an atom after losing or gaining electrons to make a bond with another atom. It indicates the charge of an ion.
The rule to name a coordination complex is,
- 1. The cation is named before the anion.
- 2. Within a complex ion, the Ligands are arranged in an alphabetical order followed by the metal ion name. The anionic Ligand should ends with a letter –o, the neutral Ligand are called by the molecules (some common name for some exception).
- 3. When more Ligands are present, Greek prefixes like di, tri, tetra, penta, and hexa to specify their number.
- 4. The oxidation number of the metal is represented in roman numerals immediately following the metal ion name.
- 5. If the complex ion is an anion, the metal name should end with –ate.
Spectrochemical series: The list of ligands arranged in an ascending order of
(a)
Answer to Problem 15PS
Explanation of Solution
The Ligands are arranged in an alphabetical order, followed by the metal name (nickel). There are two
The ligands can be written as,
The oxidation state of central metal atom
Therefore,
The name of the ion is,
(b)
Interpretation: The name of the given ions or compounds has to be determined.
Concept introduction:
Coordination compounds: The compounds having coordination covalent bonds which form when metal ions react with polar molecules or anions.
Ligands: The ions or molecules that forms coordination covalent bond with metal ions in a coordination compound. Ligands should have minimum one lone pair of electron, where it donates two electrons to the metal. Metal atom accepts the electron pair from a ligand forming a coordination bond.
Monodentate ligand is ligands which donate only one pair of electrons to form bond with metal. It only makes one bond with metal. Polydentate ligand forms two or more coordination bond with metal ions to form a complex.
Oxidation number: The total number of electrons in an atom after losing or gaining electrons to make a bond with another atom. It indicates the charge of an ion.
The rule to name a coordination complex is,
- 1. The cation is named before the anion.
- 2. Within a complex ion, the Ligands are arranged in an alphabetical order followed by the metal ion name. The anionic Ligand should ends with a letter –o, the neutral Ligand are called by the molecules (some common name for some exception).
- 3. When more Ligands are present, Greek prefixes like di, tri, tetra, penta, and hexa to specify their number.
- 4. The oxidation number of the metal is represented in roman numerals immediately following the metal ion name.
- 5. If the complex ion is an anion, the metal name should end with –ate.
Spectrochemical series: The list of ligands arranged in an ascending order of
(b)
Answer to Problem 15PS
Explanation of Solution
The Ligands are arranged in an alphabetical order, followed by the metal name (cobalt). There are two en and
The ligands can be written as,
The oxidation state of central metal atom
Therefore,
The name of the ion is,
(c)
Interpretation: The name of the given ions or compounds has to be determined.
Concept introduction:
Coordination compounds: The compounds having coordination covalent bonds which form when metal ions react with polar molecules or anions.
Ligands: The ions or molecules that forms coordination covalent bond with metal ions in a coordination compound. Ligands should have minimum one lone pair of electron, where it donates two electrons to the metal. Metal atom accepts the electron pair from a ligand forming a coordination bond.
Monodentate ligand is ligands which donate only one pair of electrons to form bond with metal. It only makes one bond with metal. Polydentate ligand forms two or more coordination bond with metal ions to form a complex.
Oxidation number: The total number of electrons in an atom after losing or gaining electrons to make a bond with another atom. It indicates the charge of an ion.
The rule to name a coordination complex is,
- 1. The cation is named before the anion.
- 2. Within a complex ion, the Ligands are arranged in an alphabetical order followed by the metal ion name. The anionic Ligand should ends with a letter –o, the neutral Ligand are called by the molecules (some common name for some exception).
- 3. When more Ligands are present, Greek prefixes like di, tri, tetra, penta, and hexa to specify their number.
- 4. The oxidation number of the metal is represented in roman numerals immediately following the metal ion name.
- 5. If the complex ion is an anion, the metal name should end with –ate.
Spectrochemical series: The list of ligands arranged in an ascending order of
(c)
Answer to Problem 15PS
Explanation of Solution
The Ligands are arranged in an alphabetical order, followed by the metal name (cobalt). There are two en and one
The ligands can be written as,
The oxidation state of central metal atom
Therefore,
The name of the ion is,
(d)
Interpretation: The name of the given ions or compounds has to be determined.
Concept introduction:
Coordination compounds: The compounds having coordination covalent bonds which form when metal ions react with polar molecules or anions.
Ligands: The ions or molecules that forms coordination covalent bond with metal ions in a coordination compound. Ligands should have minimum one lone pair of electron, where it donates two electrons to the metal. Metal atom accepts the electron pair from a ligand forming a coordination bond.
Monodentate ligand is ligands which donate only one pair of electrons to form bond with metal. It only makes one bond with metal. Polydentate ligand forms two or more coordination bond with metal ions to form a complex.
Oxidation number: The total number of electrons in an atom after losing or gaining electrons to make a bond with another atom. It indicates the charge of an ion.
The rule to name a coordination complex is,
- 1. The cation is named before the anion.
- 2. Within a complex ion, the Ligands are arranged in an alphabetical order followed by the metal ion name. The anionic Ligand should ends with a letter –o, the neutral Ligand are called by the molecules (some common name for some exception).
- 3. When more Ligands are present, Greek prefixes like di, tri, tetra, penta, and hexa to specify their number.
- 4. The oxidation number of the metal is represented in roman numerals immediately following the metal ion name.
- 5. If the complex ion is an anion, the metal name should end with –ate.
Spectrochemical series: The list of ligands arranged in an ascending order of
(d)
Answer to Problem 15PS
Explanation of Solution
The Ligands are arranged in an alphabetical order, followed by the metal name (platinum). There are two
The ligands can be written as,
The oxidation state of central metal atom
Therefore,
The name of the ion is,
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Chapter 22 Solutions
Chemistry & Chemical Reactivity
- Platinum(II) forms many complexes, among them those with the following ligands. Give the formula and charge of each complex. (a) two ammonia molecules and one oxalate ion (C2O42-) (b) two ammonia molecules, one thiocyanate ion (SCN-), and one bromide ion (c) one ethylenediamine molecule and two nitrite ionsarrow_forwardPredict the number of unpaired electrons.(a) K3[CrI6](b) [Cu(en)2(H2O)2]Cl2(c) Na3[Co(NO2)6]arrow_forwardGive the proper name for each of the following compounds: (d) [Co(H2O)4]SO4 (e) [Co(NH3)4(OH2)2](BF4)5 (f) [Fe(H2O)6]Br2 (g) Na3[Fe(CN)6] · 2 H2O (h) Na4[Fe(CN)6] (i) Ni(CO)4 (j) [Cu(NH3)4]SO4 (k) [Pt(en)2](ClO4)2 (l) Co(NH3)2(Cl)(Br)(CH3CO2)arrow_forward
- Give the proper name for each of the following compounds: (a) Pt(NH3)2Cl2 (b) [Rh(NH3)5Cl]Cl2 (c) [Co(NH3)6](NO3)3 (d) [Co(H2O)4]SO4 (e) [Co(NH3)4(OH2)2](BF4)5 (f) [Fe(H2O)6]Br2 (g) Na3[Fe(CN)6] · 2 H2O (h) Na4[Fe(CN)6] (i) Ni(CO)4 (j) [Cu(NH3)4]SO4 (k) [Pt(en)2](ClO4)2 (l) Co(NH3)2(Cl)(Br)(CH3CO2)arrow_forwardName each of the compounds or ions given, including the oxidation state of the metal. (a) [Co(CO3)3]3− (note that CO32− is bidentate in this complex)(b) [Cu(NH3)4]2+(c) [Co(NH3)4Br2]2(SO4)3(d) [Pt(NH3)4][PtCl4](e) [Cr(en)3](NO3)3(f) [Pd(NH3)2Br2] (square planar)(g) K3[Cu(Cl)5](h) [Zn(NH3)2Cl2]arrow_forwardWhich is more acidic and why? [Fe(H2O)6]2+ or [Fe(NH3)(H2O)5]2+arrow_forward
- Assign a systematic name to each of the following chemical compounds:(a) NH4[Cr(NH3)2(NCS)4](b) [Tc(CO)5]I(c) K[Mn(CN)5](d) [Co(NH3)4(OH2)Cl]Br2arrow_forwardDraw orbital-energy splitting diagrams and use the spectro-chemical series to show the orbital occupancy for each of the fol-lowing (assuming that H₂O is a weak-field ligand):(a) [Cr(CN)₆]³⁻(b) [Rh(CO)₆]³⁺(c) [Co(OH)₆]⁴⁻arrow_forwardGive systematic names for the following formulas:(a) K[Ag(CN)2] (b) Na2[CdCl4] (c) [Co(NH3)4(H2O)Br]Br2arrow_forward
- Circle all of the following species that exhibit geometric isomers. (a) [Rh(en)2 I2]I (b) [Pd(CO)2(CN)2](CN)2 (c) [Ni(C2O4)3]Cl4 Circle all of the following species that exhibit optical isomerism. (a) [Rh(en)2 I2]I (b) [Pd(CO)2(CN)2](CN)2 (c) [Ni(C2O4)3]Cl4arrow_forwardWhich of the following compounds can exhibit cis-trans isomerism? [Cr(H2O)6]3+ [Cu(CO)5Cl]+ [Ni(CO)2(NH3)2]2+ [MnClBr3]2- [Fe(CO)5NO2]2+arrow_forwardAssign a systematic name to each of the following chemical compounds. Compound Name (a) Na[Mn(CN)5l fill in the blank 1 (b) [Cu(bipy)2l]NO3 fill in the blank 2 (c) [Fe(CO)5] fill in the blank 3 (d) [Cr(NH3)3(CN)3] fill in the blank 4arrow_forward
- Chemistry: The Molecular ScienceChemistryISBN:9781285199047Author:John W. Moore, Conrad L. StanitskiPublisher:Cengage LearningChemistry: Principles and ReactionsChemistryISBN:9781305079373Author:William L. Masterton, Cecile N. HurleyPublisher:Cengage Learning