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Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET PDF Download

Q1. Ammonia has a higher boiling point than phosphine. Why?
Ans. Ammonia forms an intermolecular H-bond.


Q2. Why does PCl3 fume in moisture?
Ans. In the presence of (H2O), PCl3 undergoes hydrolysis giving fumes of HCl.
PCl3 + 3H2O → H3PO3 + 3HCl


Q3. What Happens when H3PO3 is Heated?
Ans. It disproportionate to give orthophosphoric acid and Phosphine.
4H3PO3 → 3H3PO4 +PH3


Q4. Why H2S is acidic and H2S is neutral?
Ans. The S---H bond is weaker than O---H bond because the size of S atom is bigger than that of O atom. Hence H2S can dissociate to give H+ Ions in aqueous solution.

H2S StructureH2S Structure

Q5. Name two poisonous gases which can be prepared from chlorine gas?
Ans. Phosgene (COCl2), tear gas (CCl3NO2)


Q6. Name the halogen which does not exhibit positive oxidation state.
Ans. Flourine being the most electronegative element does not show positive oxidation state.


Q7. Iodine forms I3-  but F2 does not form F-3 ions. why?
Ans. Due to the presence of vacant D-orbitals , I2 accepts electrons from I-ions to form I3- ions, but because of d-orbitals F2 does not accept electrons from F-ions to form Fions.


Q8. Phosphorous forms PCl5 but nitrogen cannot form NCl5 . Why?
Ans. Due to the availability of vacant d-orbital in p.


Q9. Using IUPAC norms write the formula for the following: Tetrahydroxozincate(II)
Ans. [Zn(OH4)2-


Q10. Using IUPAC norms write the formula for the following: Hexaamminecobalt(III) sulphate
Ans. [Co(NH3)6]2(SO4)3


Q11. Using IUPAC norms write the formula for the following: Pentaamminenitrito-cobalt(III)
Ans. [Co(ONO) (NH3)5]2+


Q12. Using IUPAC norms write the systematic name of the following: [Co(NH3)6]Cl3
Ans. Hexaamminecobalt(III) chloride


Q13. Using IUPAC norms write the systematic name of the following: [Pt(NH3)2Cl(NH2CH3)]Cl
Ans. Diamminechlorido(methylamine) platinum(II) chloride


Q14. Using IUPAC norms write the systematic name of the following: c[Cr(C2O4)3]3+
Ans. Tris(ethane-1, 2-diammine) cobalt(III) ion 


Q15. What is Spectro chemical series? Explain the difference between a weak field ligand and a strong field ligand.
Ans. A Spectro chemical series is the arrangement of common ligands in the increasing order of their crystal-field splitting energy (CFSE) values.
I- < BR - < S2- < SCN- < Cl-<N3,<F-<OH-<C2O42-~H2O-~NCS-~H-<CN-<NH3<en~ SO32-<NO2-<phen<CO


Q16. [Cr(NH3)6]3+is paramagnetic while [Ni(CN)4]2−is diamagnetic. Explain why?
Ans. Cr is in the +3 oxidation state i.e., d3 configuration. Also, NHis a weak field ligand

that does not cause the pairing of the electrons in the 3d orbital. Cr3+:
Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET
Therefore, it undergoes d2sp3 hybridization and the electrons in the 3d orbitals remain
unpaired. Hence, it is paramagnetic in nature.
In [Ni(CN)4]2−, Ni exists in the +2 oxidation state i.e., d8configuration. Ni2+:
Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET
CN is a strong field ligand. It causes the pairing of the 3d orbital electrons. Then, Ni2+undergoes dsp2 hybridization.
Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET


Q17. A solution of [Ni(H2O)6 ] 2+ is GREEN BUT A SOLUTION OF [Ni(CN)4 ] 2- colourless. Explain.
Ans. In [Ni(H2O)6]2+is a weak field ligand. Therefore, there are unpaired electrons in Ni2+. In this complex, the d electrons from the lower energy level can be excited to the higher energy level i.e., the possibility of d−d transition is present. Hence, Ni(H2O)6]2+is n coloured.
In [Ni(CN)4]2-, the electrons are all paired as CN- is a strong field ligand. Therefore, d-d transition is not possible in [Ni(CN)4]2−. Hence, it is colourless. As there are no unpaired electrons, it is diamagnetic.


Q18.  What is meant by stability of a coordination compound in solution? State the factors which govern stability of complexes.
Ans. The stability of a complex in a solution refers to the degree of association between the two species involved in a state of equilibrium. Stability can be expressed quantitatively in terms of stability constant or formation constant.
M + 3L ↔ ML3 
Stability constant Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET
For this reaction, the greater the value of the stability constant, the greater is the proportion of ML3 in the solution.


Q19. Why is HF acid stored in wax coated glass bottles?
Ans. This is because HF does not attack wax but reacts with glass. It dissolves SiOpresent in glass forming hydrofluorosilicic acid.
SiO2 +6HF → H2SiF6+2H2O


Q20. What is laughing gas? Why is it so called? How is it prepared?
Ans. Nitrous oxide (N2O) is called laughing gas, because when inhaled it produced hysterical laughter. It is prepared by gently heating ammonium nitrate.
NH4NO3 →N2O+2H2O


Q21. Give reasons for the following:
i. Conc.HNOturns yellow on exposure to sunlight.
ii. PCl5 behaves as an ionic species in solid state.
Ans. i. Conc HNO3 decompose to NO2 which is brown in colour & NO2 dissolves in HNOto it yellow.
ii. It exists as [PCl4 ] + [PCl6] - in solid state.


Q22. What happens when white P is heated with conc. NaOH solution in an atmosphere of CO2? Give equation.
Ans. Phosphorus gas will be formed.
P4+3NaOH + 3H2O → PH3 + 3NaH2PO2


Q23. How is ozone estimated quantitatively?
Ans. When ozone reacts with an excess of potassium iodide solution Buffered with a borate buffer (pH9.2), Iodide is liberated which can be titrated against a standard solution of sodium thiosulphate. This is a quantitative method for estimating Ogas.


Q24. Are all the five bonds in PCl5 molecule equivalent? Justify your answer.
Ans. PCl5 has a trigonal bipyramidal structure and the three equatorial P-Cl bonds are equivalent, while the two axial bonds are different and longer than equatorial bonds.


Q25. NO2 is coloured and readily dimerises. Why?
Ans. NO2 contains odd number of valence electrons.It behaves as a typical odd molecules. On dimerization, it is converted to stable N2O4 molecule with even number of electrons.


Q26. Write the balanced chemical equation for the reaction of Cl2 with hot and concentrated NaOH. Is this reaction a dispropotionation reaction? Justify: 
Ans. 3Cl2 + 6NaOH → 5NaCl+NaClO3+3H2O
Yes, chlorine from zero oxidation state is changed to -1 and +5 oxidation states.


Q27. Account for the following. 
i. SF6 is less reactive than. 
ii. Of the noble gases only xenon chemical compounds. 
Ans. i. In SF6 there is less repulsion between F atoms than In SF4 .
ii. Xe has low ionisation enthalpy & high polarising power due to larger atomic size.


Q28. With what neutral molecule is ClO-Isoelectronic? Is that molecule a Lewis base? 
Ans. CiF. Yes, it is Lewis base due to presence of lone pair of electron.


Q29. i. why is He used in diving apparatus?
ii. Noble gases have very low boiling points. Why?
iii. Why is ICl moe reactive than I2?
Ans. i. It is not soluble in blood even under high pressure.
ii. Being monoatomic they have weak dispersion forces.
iii. I-Cl bond is weaker than l-l bond


Q30. Complete the following equations.
i. XeF4 + H2O→
ii. Ca3P2 + H2O→
iii. AgCl(s) +NH3 (aq)
Ans i. 6XeF4+12H2O → 4Xe+2XeO3+24HF+3O2
ii. Ca2P2 + 6H2O → 3Ca (OH)2 +2PH3
iii. AgCl(s) +2NH3(aq→ [Ag(NH3)2]Cl(aq)


Q.31 i. How is XeOF4 prepared? Draw its structure.
ii. When HCL reacts with finely powdered iron, it forms ferrous chloride and not ferric chloride. Why?
Ans. i. Partial hydrolysis of XeOF4
XeF6 + H2O → XeOF4 + 2HF
Structure-square pyramidal.
ii. Its reaction with iron produces h2
Fe+2HCl → FeCl2+H2
Liberation of hydrogen prevents the formation of ferric chloride.


LONG ANSWER TYPE QUESTIONS 
Q.1 Account for the following.

i. Noble gas form compounds with F2 & O2 only.

ii. Sulphur shows paramagnetic behavior.

iii. HF is much less volatile than HCl.

iv. White phosphorous is kept under water.

v. Ammonia is a stronger base than phosphine.

Ans. i. F& O2 are best oxidizing agents.

ii. In vapour state sulphur partly exists as S2 molecule which has two unpaired electrons

in the antibonding pi *orbitals like Oand, hence, exhibit paramagnetism.

iii. HF is associated with intermolecular H bonding.

iv. Ignition temperature of white phosphorous is very low (303 K). Therefore on

explosure to air, it spontaneously catches fire forming P4O10 . Therefore to protect it

from air, it is kept under water.

v. Due to the smaller size of N, lone pair of electrons is readily available.
Q.2  When Conc. H2SO4 was added to an unknown salt present in a test tube, a brown gas

(A) was evolved. This gas intensified when copper turnings were added in to test

tube. On cooling gas (A) changed in to a colourless gas (B).

a. Identify the gases ‘A’ and ‘B’

b. Write the equations for the reactions involved

Ans. The gas ‘A’ is NO2 whereas ‘B’ is N2O4

XNO3 + H2SO4 → XHSO4 + HNO3

Salt (conc.)

Cu + 4HNO3 (Conc.) Cu (NO3)2 + 2NO2 + 2H2O

Blue Brown (A)

2NO2 (on cooling) → N2O4

Colourless (B)


Q.3  Arrange the following in the increasing order of the property mentioned.

i. HOCl, HClO2, HClO3, HClO4(Acidic strength)

ii. As2O3, ClO2, GeO3, Ga2O3(Acidity)

iii. NH3, PH3, AsH3, SbH3(HEH bond angle)

iv. HF, HCl, HBr, HI (Acidic strength)

v. MF, MCl, MBr, MI (ionic character)

Ans. i. Acidic strength: HOCl<HClO2<HCIO3<HCIO4

ii. Acidity: Ga2O3<GeO2<AsO3<CIO2

iii. Bond angle: SbH3<AsH3<PH3<NH3

iv. Acidic strength: HF<HCl<HBr<HI

v. Ionic character: MI<MBr<MCl<MF.


Q4. Discuss the nature of bonding in the following coordination entities on the basis of valence bond theory:

i. [Fe(CN)6]4−

ii. [FeF6]3−

iii. [Co(C2O4)3]3−

iv. [CoF6]3−

Ans. i. [Fe(CN)6]4− In the above coordination complex, iron exists in the +II oxidation

state. Fe2+: Electronic configuration is 3d6 Orbitals of Fe2+ion:
Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET

As CNis a strong field ligand, it causes the pairing of the unpaired 3d electrons. Since

there are six ligands around the central metal ion, the most feasible hybridization is d2sp3. d2sp3 hybridized orbitals of Fe2+ are:

 Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET
6 electron pairs from CNions occupy the six hybrid d2sporbitals.Then,
Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET
Hence, the geometry of the complex is octahedral and the complex is diamagnetic (as there are no unpaired electrons).

ii. [FeF6]3− In this complex, the oxidation state of Fe is +3.

Orbitals of Fe+3 ion:
Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET

There are 6 F− ions. Thus, it will undergo d2sp3 or sp3d2 hybridization. As Fis a weak

field ligand, it does not cause the pairing of the electrons in the 3d orbital. Hence, the

most feasible hybridization is sp3d2.sp3d2 hybridized orbitals of Fe are:
Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET
Hence, the geometry of the complex is found to be octahedral.

iii. [Co(C2O4)3]3− Cobalt exists in the +3 oxidation state in the given complex. Orbitals of

Co3+ion: Oxalate is a weak field ligand. Therefore, it cannot cause the pairing of the

3d orbital electrons. As there are 6 ligands, hybridization has to be either sp3d2 or d2sp3 hybridization. sp3d2 hybridization of Co3+ :
Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET

The 6 electron pairs from the 3 oxalate ions (oxalate anion is a bidentate ligand)

occupy these sp3d2 orbitals.
Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET
Hence, the geometry of the complex is found to be octahedral.

iv. [CoF6]3− Cobalt exists in the +3 oxidation state.
Orbitals of Co3+ion:
Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET

Again, fluoride ion is a weak field ligand. It cannot cause the pairing of the 3d

electrons. As a result, the Co3+ion will undergo sp3d2 hybridization.sp3d2 hybridized

orbitals of Co3+ion are:

Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET
Hence, the geometry of the complex is octahedral and paramagnetic.

The document Short & long Answer Questions: Coordination Compounds | Inorganic Chemistry for NEET is a part of the NEET Course Inorganic Chemistry for NEET.
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FAQs on Short & long Answer Questions: Coordination Compounds - Inorganic Chemistry for NEET

1. What are coordination compounds?
Ans. Coordination compounds are complex molecules that consist of a central metal ion or atom surrounded by ligands. These ligands are molecules or ions that donate electron pairs to the metal ion, forming coordinate covalent bonds.
2. How are coordination compounds different from ordinary compounds?
Ans. Coordination compounds differ from ordinary compounds in the way they are bonded. In ordinary compounds, atoms are bonded by sharing electron pairs, while in coordination compounds, the metal ion and ligands are bonded through coordinate covalent bonds, where the ligands donate electron pairs to the metal ion.
3. What are ligands and how do they bind to metal ions?
Ans. Ligands are molecules or ions that donate electron pairs to the metal ion in a coordination compound. They bind to the metal ion through coordinate covalent bonds, where the lone pair of electrons on the ligand forms a bond with the metal ion by sharing one of its electrons with the metal ion.
4. What is the role of coordination compounds in biological systems?
Ans. Coordination compounds play vital roles in biological systems. For example, hemoglobin, the protein responsible for oxygen transport in our blood, contains coordination complexes of iron. These complexes help in binding and releasing oxygen molecules. Similarly, many enzymes require coordination compounds as cofactors for their catalytic activity.
5. How are coordination compounds named?
Ans. Coordination compounds are named using a systematic nomenclature system called the IUPAC (International Union of Pure and Applied Chemistry) rules. The name typically includes the name of the ligands, followed by the central metal ion, and ends with the oxidation state of the metal ion in Roman numerals, if necessary.
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