A diamagnetic lanthanoid ion among the following is :
(At. numbers: Ce = 58, Sm = 62, Eu = 63, Yb = 70)
1. Ce2+
2. Eu2+
3. Sm2+
4. Yb2+
Among the following, the incorrect statement regarding interstitial compounds is:
1. They retain metallic conductivity.
2. They are chemically reactive.
3. They are much harder than the pure metal.
4. They have higher melting points than the pure metal.
Identify the mixture of metals that contain a non-metal as a constituent in it.
1. lnvar
2. Steel
3. Bell metal
4. Bronze
Which of the statements is not true?
1. On passing H2S through acidified K2Cr2O7 solution, a milky colour is observed
2. Na2Cr2O7 is preferred over K2Cr2O7 in volumteric analysis
3. K2Cr2O7 solution in acidic medium is orange
4. K2Cr2O7 solution becomes yellow on increasing the pH beyond 7
A pair among the following that have the same size is:
1. Fe2+, Ni2+
2. Zr4+, Ti4+
3. Zr4+ , Hf4+
4. Zn2+, Hf4+
Which of the following species is colourless?
1. and
2. Cu2Cl2 and
3. and Cu2Cl2
4. and
identify the incorrect statement among the following:
(1) There is a decrease in the radii of the atoms or ions as one proceeds from La to Lu.
(2) Lanthanoid contraction is the accumulation of successive shrinkages
(3) As a result of lanthanoid contraction, the properties of 4d series of the transition elements have no similarities with the 5d series of elements
(4) Shielding power of 4f electrons is quite weak
More number of oxidation states are exhibited by the actinoids than by the lanthanoids. The main reason for this is:
(1) More energy difference between 5f and 6d orbitals than that between 4f and 5d orbitals
(2) Lesser energy difference between 5f and 6d orbitals than that between 4f and 5d orbitals
(3) Greater metallic character of the lanthanoids than that of the corresponding actinoids
(4) More active nature of the actinoids
In which of the following pairs are both the ions coloured in aqueous solution?
(1) Ni2+, Ti3+
(2) Sc3+, Ti3+
(3) Sc3+, Co2+
(4) Ni2+, Cu+
(At. no : Sc =21, Ti = 22, Ni = 28, Cu = 29, Co = 27)
The correct order of atomic/ionic radii is:
(1)
(2)
(3)
(4) None of these