The largest oxidation number exhibited by an element depends on its electronic configuration. With which of the following electronic configurations will the element exhibit the largest oxidation number?
1. 3d14s2
2. 3d34s2
3. 3d54s1
4. 3d54s2
Electronic configuration of a transition element X in +3 oxidation state is [Ar]. What is its atomic number?
1. | 25 | 2. | 26 |
3. | 27 | 4. | 24 |
The electronic configuration of Cu(II) is whereas that of Cu(I) is , the correct statement about the aqueous solution of Cu(II) and Cu(I) among the following is:
1. | Cu(II) is more stable |
2. | Cu(II) is less stable |
3. | Cu(I) and Cu(II) are equally stable |
4. | Stability of Cu(I) and Cu(II) depends on the nature of copper salts |
Metallic radii of some transition elements are given below. Which of these elements will have highest density?
Element |
Fe |
Co |
Ni |
Cu |
Metallic radii/pm |
126 |
125 |
125 |
128 |
1. | Fe | 2. | Ni |
3. | Co | 4. | Cu |
The coloured compound among the following in the solid state is:
1. \( \mathrm{Ag}_{2} \mathrm{SO}_{4} \)
2. \(\mathrm {C u F}_{2} \)
3. \(\mathrm {Zn F}_{2} \)
4. \(\mathrm{Cu}_{2} \mathrm{Cl}_{2} \)
On addition to a small amount of KMnO4 to concentrated H2SO4, a green oily compound is obtained which is highly explosive in nature. Identify the compound from the following.
1. Mn2O7
2. MnO2
3. MnSO4
4. Mn2O3
The magnetic nature of elements depends on the presence of unpaired electrons. Identify the configuration of the transition element, which shows the highest magnetic moment.
1. | 2. | ||
3. | 4. |
Which of the following oxidation state is common for all lanthanoids?
1. | +2 | 2. | +3 |
3. | +4 | 4. | +5 |
Which of the following reactions are disproportionation reactions?
\(\left(\right. i \left.\right) C u^{+} \rightarrow C u^{2 +} + C u\)
\(\left(\right. i i \left.\right) 3 M n O_{4}^{-} + 4 H^{+} \rightarrow 2 M n O_{4}^{-} + M n O_{2} + 2 H_{2} O\)
\(\left(\right. i i i \left.\right) 2 K M n O_{4} \rightarrow K_{2} M n O_{4} + M n O_{2} + O_{2}\)
\(\left(\right. i v \left.\right) 2 M n O_{4}^{-} + 3 M n^{2 +} + 2 H_{2} O \rightarrow 5 M n O_{2} + 4 H^{+}\)
1. (i)
2. (i) , (ii) and (iii)
3. (ii) , (iii) and (iv)
4. (i) and (iv)
When solution is added to oxalic acid solution, the decolourisation is slow in the beginning but becomes instantaneous after some time because
1. is formed as the product
2. Reaction is exothermic
3. catalyses the reaction
4. acts as autocatalyst