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Electron  Affinity

Amount of energy released when an electron is added to an isolated gaseous atom.
x( g ) + e- → x- ( g ) + E.A.
Units : k J mol-1 ,  k Cal mol-1 and  eV per atom.

 Trends in Periodic Properties- 2 | Inorganic Chemistry

Cl  has  the  highest  E.A.Trends in Periodic Properties- 2 | Inorganic Chemistry

  • EA measures the tightness with which an atom can hold the additional e- .
  • Larger value of E.A. reflects the greater tendency of an atom to accept the e- .

Electron gain Enthalpy When expressed in terms of enthalpy change (ΔH) then it is termed as E.G.E. Remember that
ΔH = - ve for exothermic change.

For EA1, energy is released              ∴ΔHEA1 = - ve

For EA2, onwards is required         ∴ ΔHEA2 = + ve

EA1 + EA2                                               ∵ ΔH = +ve


Factors affecting Electron Affinity

(i) Nuclear Charge: Varies directly As nuclear charge increases, the incoming e- is more strongly attracted and more amount of energy is liberated.

(ii) Atomic Size: Varies inversely

  • As atomic size increases, The distance between nucleus and incoming electron also increases. The e- is less stabilized.

Less amount of energy is liberated.

 So, larger atoms have lower E.A. value

(iii) E.C.: Stable electronic configurations have less tenoency to accept electron, so they have lower E.A. values.


Periodic Trends
 (i) In a Period : 
Along a period, electron affinity increases [with exception] as Zeff ­Trends in Periodic Properties- 2 | Inorganic Chemistry.

  • X have highest E.A. : In corresponding periods (Halogens). By accepting 1e-, achieve ns2p6 configuration.
  • Noble gase have zero E.A. :As they have stable configuration, so they do not have any tendency to accept e.
  • E.A., Be, Mg → EA almost zero : They have all paired e-s. So they have stable configuration.
  • E.A. of N, P → extremely low : These have stable half filled E.C. Their p orbitals one half filled in their valence shells.

(ii) In a group : Along a group, electron affinity decreases after 3rd period. Between 2nd and 3rd period in p block electron affinity of 2nd period is lesser due to high electron density.

F = 328,  Cl = 349,  Br =324,  I = 295

  Trends in Periodic Properties- 2 | Inorganic Chemistry

Exception 

(1) A fully filled and half filled which have low values or even sometimes energy is required rather than getting released.

(2) 2nd period has lower value than 3rd owing to repulsion between electrons.

Unexpected E.A.: EA of chlorine is higher than that of F.
In general: The third period elements have higher EA values than 2nd period elements.

Electronegativity (E.N.)

  • It is defined as, the tendency of an atom to attract the shared pair of electron in a molecule.

Factor affecting electronegativity 

(1) Nuclear attraction : varies directly
(2) Atomic radius : varies inversely
(3) Change on ions : More positive charge more electronegativity and more –ve change less electronegativity. (4) Hybridisation : to be discussed later in bonding.
⇒ When ENC increases more EN, also increases.

 

Periodic Trends 

Across the Period : The E.N. values increase along a period from left to right.
Down the Group:

  • The E.N. values decrease down the group.

Most Electronegative Atom of P.T.: 

  • The Black Sheep is (F).
  • Least EN. atom → (Fr)
  • 1st Group elements (Alkali metals) have lowest EN. in a period.
  • The Halogens are most electronegative in a period.
  • Non metals have high EN. values.

Scale of measurement

(1) Pauling’s Scale (1932):

  • Pauling assigned an arbitrary EN value of 4.0 to the most electronegative atom F.
  • The E.N. of other elements were as by keeping this value as the standard reference.
  • The E.N. difference between two atoms is determined by the expression,

Trends in Periodic Properties- 2 | Inorganic Chemistry

XA = E.N. of A

 

XB = E.N. of B.       Trends in Periodic Properties- 2 | Inorganic Chemistry   Bond energies of A - A, B - B, A - B molecules.


(2) Mulliken Scale (1934) : According to this scale, EN. of an atom is the average sum of I E. and EA. of an atom.

Trends in Periodic Properties- 2 | Inorganic Chemistry

In Pauling Scale

Trends in Periodic Properties- 2 | Inorganic Chemistry (If I.P., E.A. are taken in eV)

Trends in Periodic Properties- 2 | Inorganic Chemistry (I.P., E.A. = Kcal mol-1)

 

Factors dependent on electronegativity

(1) % ionic character varies directly.

(2) Strength of bond varies directly.

 

Application of E.N.

 

(1) Polarity of a molecule : As the DE increases between two bonded atoms; it polarity also increases.
Eg. H - I < HBr < H - Cl < H - F .....dipole moment The direction of dipole is also determine by

Trends in Periodic Properties- 2 | Inorganic ChemistryThe more electronegative atom constitutes the negative pole.

(2) Nature of the bond of a molecule 

If the Δ E.N. is less (< 1 .7) the bond the has more covalent character..
If the Δ E.N is more (> 1.7) the bond the has more ionic character..
Trends in Periodic Properties- 2 | Inorganic Chemistry

Allred Scale for measurement of % ionic character  of a covalent bond : % ionic character of a bond = Trends in Periodic Properties- 2 | Inorganic Chemistry

(3) Determination of Bond Strength: As the ΔE = X A - X B increases, a stronger covalent bond is formed.

 Trends in Periodic Properties- 2 | Inorganic Chemistry

 

 Table : Hydrides MHx - E.N. of M and Nature

S.NO.Δ E.N .(M .H .)  NatureEg.
1.M < HBasicLiH < NaH < KH < RbH < CsH BeH2 < MgH2 < CaH2 < SrH2 < BaH2 < RaH2 AlH3 < GaH3 < InH3 < TiH3 NH< PH3 < AsH3 < SbH3 < BiH
Transition metal hydrides
2.M = HNeutralCH< SiH4 < GeH4 < SnH< PhH4
3.M > HAcidicH2O < H2S < H2Se < H2Te < H2PO HF < HCl < HBr < HI

 

INERT PAIR EFFECT
Inert pair effect term refers to the resistances of a pair of s electrons to be lost or to participate in covalent bond formation.
Example: 

(1) Group III A : 

          (A) TI(3+): 2, 8; 18, 32, 18

                Tl(+) : 2,8, 18, 32, 18, 2

                 Tl(1) compounds are more stable than Tl(III) compounds.

(B) The mean bond energy for chlorides are GaCl= 242, InCl3 = 206 and TlCl3 = 153 kJ mol-1.
Thus the s electrons are most likely to be Inert in thallium and TIClis the least stable among these chlorides.

(2) Group IVA: 

(A) Sn2+ : 2, 8, 18, 18, 2 (outer 5s2 electrons not lost)

    Sn4+: 2, 8, 18, 18

Sn(II) exist as a simple ion Sn2+ and is a strong reducing agent whereas Sn(IV) is covalent.

(B) Pb2 : 2. 8, 18, 32. 18, 2 (outer 6selectrons not lost)

      Pb4: 2,8, 18, 32, 18

      Pb2 is Ionic, stable and more common than Pb (IV) which is oxidizing.

(3) GroupVA:

(A) Arsenic and atomic show a variable valence of 3 and 5 while Bismuth is only trivalent.
Bi3+ : 2, 8, 18, 32, 18, 2 (outer 6s2 electron not lost)

Bi3+ is stable and Sb3+ is a reducing agent.

The document Trends in Periodic Properties- 2 | Inorganic Chemistry is a part of the Chemistry Course Inorganic Chemistry.
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FAQs on Trends in Periodic Properties- 2 - Inorganic Chemistry

1. What are periodic properties in chemistry?
Ans. Periodic properties in chemistry are the physical and chemical properties of elements that vary in a periodic manner across the periodic table. These properties include atomic radius, ionization energy, electron affinity, electronegativity, and metallic character.
2. How does atomic radius change across a period?
Ans. Atomic radius tends to decrease across a period from left to right. This is because as we move across a period, the number of protons in the nucleus increases, resulting in a stronger attractive force on the electrons in the same energy level. As a result, the electrons are pulled closer to the nucleus, leading to a decrease in atomic radius.
3. What is ionization energy?
Ans. Ionization energy is the energy required to remove an electron from a gaseous atom or ion. It is a periodic property that generally increases across a period from left to right. This is because as we move across a period, the atomic radius decreases, and the electrons are held more tightly by the nucleus, requiring more energy to remove them.
4. How does electronegativity change down a group?
Ans. Electronegativity tends to decrease down a group in the periodic table. This is because as we move down a group, the atomic size increases due to the addition of new energy levels. The increased atomic size results in a greater distance between the nucleus and the valence electrons, reducing the attraction and decreasing electronegativity.
5. What is metallic character?
Ans. Metallic character refers to the ability of an element to exhibit metallic properties, such as conductivity, malleability, and luster. Metallic character tends to increase down a group and decrease across a period. This is because down a group, the atomic size increases, allowing for more efficient electron mobility and better metallic behavior. Across a period, the atomic size decreases, and the nonmetallic character increases.
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