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Fajan's Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry PDF Download

Application of Fajan’s Rules (i) solubility :

(i) Solubility

  • Ag2S is less soluble than Ag2O in H2O because Ag2S is more covalent due to bigger S2– ion.
  • Fe(OH)3 is less soluble than Fe(OH)2 in water because Fe+3 is smaller than Fe+2 and thus charge

is more. Fe(OH)3 is more covalent than Fe(OH)2.

(ii) Colour of compounds :

  • The colour of some compound can be explained on the basis of polarisation of their bigger negative  ions. For ex : AgCl is white AgBr, Agl, Ag2CO3 are yellow.

The bigger anions are more polarised and hence their electrons get excited by partial absorption of visible light.

  • Similarly, SnCl2 is white but SnI2 is black
  • PbCl2 is white but PbI2 is yellow.

(iii) Variation of M.P. [M.P. of covalent < M.P. of ionic]

M.P. : BeCl2 < MgCl2 < CaCl2 < SrCl2 < BaCl2
M.P. : CaF2 > CaCl2 > CaBr2 > CaI2

(iv) Nature of oxides :

  • Covalent character Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry acidic nature Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry basic nature Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Na2O     MgO    Al2O3    SiO2 P2O5 SO3 Cl2O7
Acidic nature Li2O Na2O K2O Rb2O basicFajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Non-Bonding interactions (Intermolecular forces)

Intermolecular attractions hold two or more molecules together. These are weakest chemical forces and can be of following types :
(i) Hydrogen Bonding    (ii) Ion-Dipole interaction   (iii) Van-der Waal’s interaction

(i) Hydrogen Bond

It is electrostatic force of attraction which exist between covalently bonded H-atom of one molecule and the most electronegative element of another molecules.

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Conditions of H-bond

(i) Molecules should have more electronegative atom (F, O, N) linked to the H-atom
(ii) Size of electronegative atom should be smaller.
(iii) A lone pair should be present on electronegative atom.

Nature of H-Bond

It is a very weak electrostatic attraction between positive pole of and lone pair of an electronegative atom which can i.e. F, N or O (But in some cases Cl and C are also found to form H-bonds)

Strength of H-Bond

The strength of H-bond is usually very low (5-10 kJ/mol) but in some cases this value may be as highest 50kJ/mole or more. The strongest H-bonds are fomred by F atoms. D is more positive than H therefore it also form stronger bonds. Besides (F), the Strength of H bonds depends on :
(a) Magnitude of (+) pole of H (For this atom X must be more and more electronegative)
(b) Availability of lone pair on the atom Y.

Types of H-Bonds

(a) Inter Molecular

Exists between the negative and positive ends of different molecules of the same or different substances

(1) In H-F solid Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

The solid KHF2 is an ionic compound consisting of K+ and [HF2] The anion [HF2] consists of H-bonds

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

(b) Intra molecular

Exists between hydrogen and an electro-negative element of the same molecule. Example are :

(i) O-nitrophenol :

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

(ii) Chloral hydrate :

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

(Important example conaisn 2(OH) groups on one C atom)

(a) Ion-dipole attraction  Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Exists between an ion and a polar molecule, its strength depends on (i) size of ion (ii) charge on the ion (iii) dipole moment of the polar molecule.

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry This force is responsible of hydration

(b) Dipole-dipole attraction  Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Electrostatic attractions between the oppositively charged ends of permanent dipoles. Exists between polar molecules and due to this force gas can be liquified.

 

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

(c) Ion-induced dipole attraction  Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Exists between ion and non-polar molecules.

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

(d) Dipole-induced dipole attraction  Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Exists between polar and non-polar molecules.

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

(e) Instantaneous dipole-induced dipole attraction Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Exists among the non-polar molecules like H2, O2, Cl2 etc. in solid or liquid states

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Relatrive strength of interactions
Ion-dipole > dipole-dipole > ion-induced dipole > dipole-induced dipole Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry instantaneous dipoleinduced
dipole

  • Strength of vander waal force ∝ molecular mass
  • van der Waal’s force ∝ Boiling point.

Polarity in covalent compounds (Dipole moment)
In diatomic molecule μ = δ x d
A molecule will have a dipole moment of 1 Debye (1D) if charges of 4.8 × 10–10 esu are separated by
a distance of 1 Å.

Thus, 4.8 × 10–10 esu cm = 1 D

but in polyatomic molecule with angle θ, resultant dipole moment is the vector summation of the vector moments.

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

where μAB is the vector moment of the side AB.

Also, Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Thus, greater the value of θ, smaller the value of μ. 

ExampleFajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry(θ =104.50) > Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Application of dipole moment

(1) To distinguish between polar & non polar molecules: The molecules having some value of dipole moment are polar like HCN, NH3, OCS, PF3, H2O, SO2, NO2, O3 etc.

While those having zero dipole moment are non polar like CO2, BeF2, H2, N2, CH4, SF6, SO3, etc.

(2) To calculate the percentage of ionic character in the polar covalent bond in a given molecule:

Greater is the electronegativity difference between the bonded atoms in a polar molecule, greater is the value of dipole moment.

Percentage of ionic character in A – B bond in AB molecules = Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

 

(3) To predict the shape of a given molecule: The dipole moment value of a given molecule can be used to predict whether the given molecules has symmetrical or unsymmetrical shape.

  1. In a molecule which has symmetrical shape like dumbbell, (e.g. C2, H2, N2, O2, Cl2, Bl2 etc.), linear (e.g. CO2, BeCl2(g), HgCl2), trigonal planar (e.g. BF3, BCl3, SO3 etc.), regular tetrahedral (e.g. CH4, CCl4, CF4 SiF4 etc.), trigonal bipyramidal (e.g. PF5, PCl5(g)), square planar (e.g.XeF4), regular octahedral (e.g. SF6, WF6), pentagonal bipyramidal (IF7) the dipole moments of the vaious bonds present in the molecule cancel each other and hence the net dipole moment of the molecule becomes equal to zero. Thus a molecule which has a symmetrical shape has no (zero) dipole moment.
  2. In a molecule which has unsymmetrical shape like angular (e.g. H2O, H2S), trigonal pyramidal (e.g. NH3, NF3, PH3 etc.) the dipole moments of the various bonds present in the molecule are not able to cancel each other and hence the molecule has some value for its dipole moment.

Thus a molecule which has unsymmetrical shape has a certain value of dipole moment.

(4) To Calculate the bond angle between two bonds in a molecule: The angle subtended by two axes of overlaps of orbitals or bond is called bond angle.
Net dipole moment of the molecule =Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

in which m1 and m2 are the bond moments of various bonds present in the molecule.

Examples:
(i) Symmetrical molecules without lone pair of electrons will have μ = 0.

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

In this case resultant μ2 of H - B - H on the left is cancelled by μ of the right.
O = C = O            θ =1800            μ = 0

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry , planar , μ = 0

(ii) Symmetrical molecules with lone pair do not have dipole moments equal to zero.

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

(iii) Dipole moment in ring systems

if Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry Dipole moment = μ, Then, by usingFajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry 

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry  Dipole moment = √3 μ , α = 60°

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry Dipole moment = μ , α = 120°

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry    Dipole moment = 0 , α = 180°

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry Dipole moment = μ 

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Theoretical μ = 6.30D       μ = 3.80D         μ = 0.00D

Experimental μ = 6.00D    μ = 3.79           μ = 0.00D
In this case μ(o-isomer) > μ(m-isomer) > μ(p-isomer) but experimental value of o-isomer < theoretical value.

This is due to dipole-dipole repulsion in o-isomer that increases bond angle greater than 60° and μ decreases.

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic ChemistryFajan`s Rule, Types of Interactions & Dipole Moment | Inorganic ChemistryFajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

(iv) Dipole moment in Geometrical Isomers

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic ChemistryFajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic ChemistryFajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

(v) Dipole moment in conjugated system

Fajan`s Rule, Types of Interactions & Dipole Moment | Inorganic ChemistryFajan`s Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry

As charge separation increases in conjugated systems, dipole moment is extremely high in them.

The document Fajan's Rule, Types of Interactions & Dipole Moment | Inorganic Chemistry is a part of the Chemistry Course Inorganic Chemistry.
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FAQs on Fajan's Rule, Types of Interactions & Dipole Moment - Inorganic Chemistry

1. What is Fajan's Rule?
Ans. Fajan's Rule is a concept in chemistry that explains the polarization of chemical bonds between atoms. It states that as the size of the cation increases or the charge density decreases, the covalent character of the bond increases. In other words, smaller and more highly charged cations tend to have more ionic character in their bonds, while larger and less charged cations tend to have more covalent character.
2. What are the types of interactions discussed in the article?
Ans. The article discusses three types of interactions: ionic interactions, covalent interactions, and dipole-dipole interactions. Ionic interactions occur between ions of opposite charges, where one atom donates an electron to another atom, forming an ionic bond. Covalent interactions involve the sharing of electrons between atoms, resulting in the formation of covalent bonds. In this type of interaction, atoms share electrons to achieve a stable electron configuration. Dipole-dipole interactions occur between polar molecules. These interactions arise from the attraction between the positive end of one polar molecule and the negative end of another polar molecule.
3. What is a dipole moment?
Ans. A dipole moment is a measure of the polarity of a molecule. It quantifies the separation of positive and negative charges within a molecule. The dipole moment is represented by a vector, with the positive end pointing towards the more electronegative atom and the negative end pointing towards the less electronegative atom. A larger dipole moment indicates a more polar molecule.
4. How does Fajan's Rule relate to the types of interactions discussed in the article?
Ans. Fajan's Rule is directly related to the types of interactions discussed in the article. It explains the degree of covalent and ionic character in chemical bonds. According to Fajan's Rule, smaller and more highly charged cations tend to have more ionic character in their bonds, while larger and less charged cations tend to have more covalent character. Therefore, Fajan's Rule provides insights into the type of interaction (ionic or covalent) that will occur between different atoms.
5. How can the dipole moment of a molecule be determined experimentally?
Ans. The dipole moment of a molecule can be determined experimentally through various techniques. One common method is the use of spectroscopy, particularly microwave spectroscopy or infrared spectroscopy. These techniques can measure the rotational or vibrational transitions in a molecule, which are influenced by the molecule's dipole moment. By analyzing these transitions, scientists can calculate the dipole moment of the molecule. Another method is the use of dielectric constant measurements, where the dipole moment affects the dielectric properties of a substance. By measuring the dielectric constant, the dipole moment can be determined.
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