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प्रश्न
What is lanthanoid contraction?
उत्तर १
The atomic and ionic radii of lanthanoids gradually decrease with an increase in atomic number. This process is known as lanthanoid contraction.
उत्तर २
In the lanthanoid series, as the atomic number increases, the atomic and ionic radii decrease from one element to the next, but this decrease is very small. For example – on going from Ce to Lu the atomic radius decreases from 183 pm to 173 pm and this decrease is only 10 pm. Similarly, on going from Ce3+ to Lu3+ ion the ionic radius decreases from 103 pm to 85 pm, which is only 18 pm. Hence, for an increase of 14 in atomic number, the decrease in atomic and ionic radii is much less. This decrease is much less than the elements of other groups and periods.
Table - Variation in atomic and ionic radii of lanthanum and lanthanoids (pm)
| Element | La | Ce | Pr | Nd | Pm | Sm | Eu | Gd | Tb | Dy | Ho | Er | Tm | Yb | Lu |
| Radius (Ln) | 187 | 183 | 182 | 181 | 181 | 180 | 199 | 180 | 178 | 177 | 176 | 175 | 174 | 173 | - |
| Radius (Ln3+) | 106 | 103 | 101 | 99 | 98 | 96 | 95 | 94 | 92 | 91 | 89 | 88 | 87 | 85 | - |
The steady decrease in atomic and ionic sizes of lanthanoid elements with an increase in atomic number is called 'lanthanoid contraction'.
The decrease in ionic radii of trivalent lanthanoids (Ln3+) is shown in.
Causes of Lanthanide Contraction: In the lanthanoid series, on going from one element to the next, the nuclear charge increases by one unit and an electron is added. These new electrons are added to the parallel 4f-subshells. However, the shielding effect of one 4f-electron on the other 4f-electron (from the nuclear charge) is less due to the very large size of the f-orbitals. Although the nuclear charge increases by one unit at each step, the effective nuclear charge experienced by each 4f-electron increases with the increase in atomic number and nuclear charge. As a result, the entire 4f-electron shell contracts with the addition of each element, although this reduction is minimal. As a result, a regular decrease in the size of lanthanoids is observed with increasing atomic number. The sum of successive reductions gives the total lanthanoid contraction.
Notes
Students can refer to the provided solutions based on their preferred marks.
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संबंधित प्रश्न
What are chemical twins? Write ‘two’ examples.
What are lanthanoids?
Account for the following :
Zr and Hf have almost similar atomic radii.
What are the different oxidation states exhibited by the lanthanoids?
Compare the chemistry of actinoids with that of lanthanoids with special reference to electronic configuration.
Compare the chemistry of actinoids with that of the lanthanoids with special reference to oxidation state.
Name the members of the lanthanoid series which exhibit +4 oxidation state and those which exhibit +2 oxidation state. Try to correlate this type of behavior with the electronic configurations of these elements.
Write the different oxidation states of iron
Explain effects of lanthanoid contraction
What are the consequences of lanthanoid contraction?
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What is Lanthanoid contraction?
Name an element of lanthanoid series which is well knwon to shown +4 oxidation state. Is it a strong oxidising agent or reducing agent?
What is lanthanoid contraction? Write the.............
What is meant by Lanthanide contraction? Write the general electronic configuration of inner transition elements.
The f-block elements are known as ____________.
Gadolinium belongs to 4f series. It’s atomic number is 64. Which of the following is the correct electronic configuration of gadolinium?
General electronic configuration of actinoids is `(n-2)f^(1-14)(n - 1)d^(0-2)ns^2`.Which of the following actinoids have one electron in 6d orbital?
(i) U (Atomic no. 92)
(ii) Np (Atomic no.93)
(iii) Pu (Atomic no. 94)
(iv) Am (Atomic no. 95)
Although +3 is the characteristic oxidation state for lanthanoids but cerium also shows +4 oxidation state because:
(i) it has variable ionisation enthalpy
(ii) it has a tendency to attain noble gas configuration
(iii) it has a tendency to attain f 0 configuration
(iv) it resembles Pb4+
Although Zr belongs to 4d and Hf belongs to 5d transition series but it is quite difficult to separate them. Why?
Match the property given in Column I with the element given in Column II.
| Column I (Property) | Column II (Element) | |
| (i) | Lanthanoid which shows +4 oxidation state |
(a) Pm |
| (ii) | Lanthanoid which can show +2 oxidation state |
(b) Ce |
| (iii) | Radioactive lanthanoid | (c) Lu |
| (iv) | Lanthanoid which has 4f7 electronic configuration in +3 oxidation state |
(d) Eu |
| (v) | Lanthanoid which has 4f14 electronic configuration in +3 oxidation state |
(e) Gd |
| (f) Dy |
On the basis of Lanthanoid contraction, explain the following:
Nature of bonding in \[\ce{La2O3}\] and \[\ce{Lu2O3}\] .
On the basis of Lanthanoid contraction, explain the following:
Trends in the stability of oxo salts of lanthanoids from \[\ce{La}\] to \[\ce{Lu}\].
On the basis of Lanthanoid contraction, explain the following:
Stability of the complexes of lanthanoids.
On the basis of Lanthanoid contraction, explain the following:
Trends in acidic character of lanthanoid oxides.
The titanium (Z = 22) compound that does not exist is:-
Write any two consequences of Lanthanoid Contraction.
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Cerium (Z = S8) is an important member of lanthanoids. Which of the following statements about cerium is incorrect?
State a reason for the following:
La(OH)3 is more basic than Lu(OH)3.
Trivalent Lanthanoid ions such as La3+ (Z = 57) and Lu3+ (Z = 71) do not show any colour in their solution. Give a reason.
Assertion: There is a continuous increase in size among Lanthanoids with an increase in atomic number.
Reason: Lanthanoids do not show Lanthanoid contraction.
Name an important alloy which contains some of the lanthanoid metals.
