Coordination Compounds

Q 1.

When 1 mol CrCl₃.6H₂O is treated with excess of AgNO₃, 3 mol of AgCl are obtained. The formula of the complex is

Q 2.

Assertion (A): [Cr(H₂O)₆]Cl₂ and [Fe(H₂O)₆]Cl₂ are reducing in nature. Reason (R): Unpaired electrons are present in their J-orbitals.

Q 3.

Calculate the overall complex dissociation equilibrium constant for the  Cu(NH₃)₄²⁺  ion, given that β₄  for this complex is 2.1 x  10¹³.

Q 4.

What is meant by unidentate didentate and ambidentate ligands? Give two examples for each.

Q 5.

What is meant by the chelate effect? Give an example.

Q 6.

Which of the following options are correct for [Fe(CN)₆]^3- complex?
(a) d²sp³ hybridisation
(b) sp³d²  hybridisation
(c) Paramagnetic
(d) Diamagnetic

Q 7.

On the basis of crystal field theory explain why Co(III) forms paramagnetic octahedral complex with weak field ligands whereas it forms diamagnetic octahedral complex with strong field ligands.

Q 8.

[Fe(CN)₆]^4- and [Fe(H₂O)₆]²⁺ are of different cdlours in dilute solutions. Why?

Q 9.

Which of the following complexes show linkage isomerism?
(a) [CO(NH₃)₅(NO₂)]²⁺  (b) [CO(H₂O)₅CO]³⁺
(c) [Cr(NH₃)₅SCN]²⁺  (d) [Fe(en)₂Cl₂]⁺

Q 10.

Magnetic moment of [MnCl₄]^2- is 5.92 BM. Explain giving reason.

Q 11.

Match the complex species given in Column I with the possible isomerism given in Column II and assign the correct code:

Q 12.

In the following questions, a statement of Assertion (A) followed by a statement of Reason (R) is given. Choose the correct option out of the following choices.
(a) Assertion and Reason both are true, Reason is the correct explanation of Assertion.
(b) Assertion and Reason both are true but Reason is not the correct explanation of Assertion.
(c) Assertion is true, Reason is false.
(d) Assertion is false, Reason is true.

Assertion (A): Toxic metal ions are removed by the chelating ligands. Reason (R): Chelate complexes tend to be more stable.

Q 13.

Indicate the complex ion which shows geometrical isomerism.

Q 14.

A complex of the type [M(AA)₂X₂]ⁿ⁺ is known to be optically active. What does this indicate about the structure of the complex? Give one example of such complex.

Q 15.

What is the relationship between observed colour of the complex and the wavelength of light absorbed by the complex?

Q 16.

Explain on the basis of valence bond theory that  [Ni(CN)₄]^2-  ion with square planar structure is diamagnetic and the[Ni(CN)₄]^2- ion with tetrahedral geometry is paramagnetic.

Q 17.

Why do compounds having similar geometry have different magnetic moment?

Q 18.

[Fe(H₂O)₆]³⁺is strongly paramagnetic whereas  [Fe(CN)₆]^3-is weakly paramagnetic. Explain.

Q 19.

How many ions are produced from the complex Co(NH₃)₆Cl₂ in solution?
(i) 6
(ii) 4
(iii)3
(iv)2

Q 20.

Write the IUPAC names of the following coordination compounds:
(i)[Co(NH₃)₆]Cl₃
(ii)[Co(NH₃)₅Cl]Cl₂
(iii)K₃[Fe(CN)₆l
(iv)K₃lFe(C₂O₄)₃]
(v)K₂[PdCl₄]
(vi)[Pt(NH₃)₂Cl(NH₂CH₃)]Cl

Q 21.

Explain the bonding in coordination compounds in terms of Werner's postulates.

Q 22.

Assertion (A): Linkage isomerism arises in coordination compounds containing ambidentate ligand.
Reason (R): Ambidentate ligand has two different donor atoms.

Q 23.

What is the coordination entity formed when excess of aqueons KCN is added to an aqueous solution of copper sulphate? Why is it that no precipitate of copper sulphide is obtained when H₂S (g) is passed through this solution?

Q 24.

Why do compounds having similar geometry have different magnetic moment?

Q 25.

Match the coordination compounds given in Column I with the central metal atoms given in Column II and assign the correct code:

Q 26.

Explain with two examples each of the following: coordination entity, ligand, coordination number, coordination polyhedron, homoleptic and heteroleptic.

Q 27.

Draw figure to show the splitting of d-orbitals in an octahedral crystal field.

Q 28.

What will be the correct order for the wavelengths of absorption in the visible region for the following:[Ni(NO₂)₆]^4-, [Ni(NH₃)₆]²⁺, [Ni(H₂0)₆]²⁺?

Q 29.

Give the electronic configuration of the following complexes on the basis of crystal field splitting theory.
[COF₆]^3-, [Fe(CN)₆]^4- and [Cu(NH₃)₆]²⁺.

Q 30.

CUSO₄.5H₂O is blue in colour while CuSO₄ is colourless. Why?

Q 31.

Write the formulas for the following coordination compounds:
(i)Tetraamminediaquacobalt(IlI) chloride
(ii)Potassium tetracyanidonickelate(II)
(iii)Tris(ethanp-1,2-diamine) chromium(III) chloride
(iv)Amminebromidochloridonitrito-N- platinatc(II)
(v)Dichloridobis(ethane-l ,2-diamine) platinum (IV) nitrate
(vi)Iron(III)hexacyanidoferrate(II)

Q 32.

[NiCl₄]^2- is paramagnetic while [Ni(CO)₄]  is diamagnetic though both are tetrahedraL Why?

Q 33.

What is crystal field splitting energy? How does the magnitude of Δ₀ decide the actual configuration of d-orbitals in a coordination entity?

Q 34.

Identify the correct statements for the behaviour of ethane-1, 2-diamine as a ligand.
(a) It is a neutral ligand (b) It is a didentate ligand
(c) It is a chelating ligand (d) It is a unidentate ligand

Q 35.

A coordination compound CrCl₃.4H₂O precipitates silver chloride when treated with silver nitrate. The molar conductance of its solution corresponds to a total of two ions. Write structural formula of the compound and name it.

Q 36.

Why are low spin tetrahedral complexes not formed?

Q 37.

Using IUPAC norms write the systematic names of the following:
(i) [Co(NH₃)₆]CI₃,
(ii)[Pt(NH₃)₂CI (NH₂CH₃)] Cl
(iii) [Ti(H₂0)₆]3+
(iv) [Co(NH3)₄Cl(N02)]CI
(v)|Mn(H₂0)₆]²⁺
(vi)[NiCl₄]^2-
(vii)[Ni(NH₃)₆]CI₂
(viii)[Co(en)₃]³⁺
(ix) [Ni(CO)₄]

Q 38.

Discuss the nature of bonding in metal carbonyls.

Q 39.

Discuss briefly giving an example in each case the role of coordination compounds in:(i)biological systems (iii) analytical chemistry (ii)medicinal chemistry and (iv) extraction/ metallurgy of metals.

Q 40.

The oxidation number of cobalt in K[Co(CO)₄] is
(i)+1
(ii)+3
(iii)-1
(iv)-3

Q 41.

The colour of the coordination compounds depends on the crystal field splitting. What will be the correct order of absorption of wavelength of

Q 42.

An aqueous pink solution of cobalt (II).chloride changes to deep biue on addition of excess of HCl. This is because
(a) [Co(H₂O)₆]²⁺ is transformed into [CoCl₆]^4-
(b) [CO(H₂O)₆]²⁺ is transformed into [COCl₄]^2-
(c) tetrahedral complexes have smaller crystal field splitting than octahedral complexes
(d) tetrahedral complexes have larger crystal field splitting than octahedral complex

Q 43.

Arrange the following complexes in the increasing order of conductivity of their solution:
[Co(NH₃)₃Cl₃], [CO(NH₃)₄Cl₂]Cl, [CO(NH₃)₆]C13, [Cr(NH₃)₅Cl]Cl₂

Q 44.

Draw all the isomers (geometrical and optical) of
(i)[CoCl₂(en)₂]⁺
(ii)[Co(NH₃) Cl (en)₂]²⁺
(iii) [Co(NH₃)₂Cl₂(en)]⁺

Q 45.

Amongst the following, the most stable complex is:
(i) [Fe(H₂O)₆] (ii) [Fe(NH₃)₆]³⁺
(iii) [Fe(C₂O₄)₃]^3- (iv) [FeCl₆]^3-

Q 46.

The CFSE for octahedral [COCl₆]^4- is 18,000 cm^-1. The CFSE for tetrahedral [COCl₄]^2- will be
(a) 18,000 cm^-1(b) 16,000 cm^-1 (c) 8,000 cm^-1 (d) 20,000 cm^-1

Q 47.

Name the type of isomerism when ambidentate ligands are attached to central metal ion. Give two examples of ambidentate ligands.

Q 48.

CoSO₄Cl.5NH₃ exists in two isomeric forms ‘A' and ‘B'. Isomer ‘A' reacts with AgNO₃ to give white precipitate, but does not react with BaCl₂. Isomer ‘B' gives white precipitate with BaCl₂ but does not react with AgNO₃. Answer the following questions.
(i) Identify A' and B' and write their structural formulas.
(ii) Name the type of isomerism involved.
(iii) Give the IUPAC name of A' and B'.

Q 49.

Why are different colours observed in octahedral and tetrahedral complexes for the same metal and same ligands?

Q 50.

Give evidence that  [Co(NH₃)₅Cl]S0₄  and [Co(NH₃)₅S0₄]Cl  are ionisation isomers.