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The d-And-f-Block Elements

Long Answer Type

161. The chemistry of the actinoid elements is not so smooth as that of the lanthanoids. Justify this statement by giving some examples from the oxidation state of these elements.

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Short Answer Type

162. Which is the last element in the series of the actinoids? Write the electronic configuration of this element. Comment on the possible oxidation state of this element.

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163.

Use Hund's rule to derive the electronic configuration of Ce³⁺ ion, and calculate its magnetic moment on the basis of 'spin only' formula.

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Long Answer Type

164. Name the members of the lanthanoid series which exhibit +4 oxidation states and those which exhibit + 2 oxidation states. Try to correlate this type of behaviour with the electronic configurations of these elements.

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Short Answer Type

165. Compare the chemistry of the actinoids with that of lanthanoids with reference to:
(i) electronic configuration (ii) oxidation states and (iii) chemical reactivity (iv) Atomic size

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166.

Explain:
CrO₄^2– is a strong oxidizing agent while MnO₄^2– is not.

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167.

Explain:
Zr and H_f have identical sizes.

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168.

Explain:
The lowest oxidation state of manganese is basic while the highest is acidic.

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169.

Explain:
Mn(II) shows maximum paramagnetic character amongst the divalent ions of the first transition series.

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Long Answer Type

170. Compare the general characteristics of the first series of the transition metals with those of the second and third series metals in the respective vertical columns. Give special emphasis on the following points:
(i) electronic configuration (ii) oxidation states (iii) ionisation enthalpies and (iv) atomic sizes.

(i) Electronic configuration:

(ii) Oxidation states:

Sc Ti

+2 (+2) +3 +3 +4

(+4)

(+5)

(+3)

(+5)

(+6)

(+1)

(+4)

(+5)

(+6)

(+1)

(+3)

(+4)

+ 1

(+3)

(+4)

+ 1

(+3)

(+1)

(iii) Ionization enthalpies

In each of the three transition series, the first ionisation enthalpy increases from left to right. However, there are some exceptions. The first ionisation enthalpies of the third transition series are higher than those of the first and second transition series. This occurs due to the poor shielding effect of 4felectrons in the third transition series.

Certain elements in the second transition series have higher first ionisation enthalpies than elements corresponding to the same vertical column in the first transition series. There are also elements in the 2ndtransition series whose first ionisation enthalpies are lower than those of the elements corresponding to the same vertical column in the 1sttransition series.

Element	Sc	Ti	V	Cr	Mn	Fe	Co	Ni	Cu	Zn
IE, (kJ mol^–1)	631	656	650	652	717	762	758	736	745	906

(iv) Atomic Sizes

Atomic size generally decreases from left to right across a period. Now, among the three transition series, atomic sizes of the elements in the second transition series are greater than those of the elements corresponding to the same vertical column in the first transition series. However, the atomic sizes of the elements in the third transition series are virtually the same as those of the corresponding members in the second transition series. This is due to lanthanoid contraction.

Element	Sc	Tc	V	Cr	Mn	Fe	Co	Ni	Cu	Zn
Atomic sizes (pm)	144	132	122	117	117	117	116	115	117	125

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