What is the general molecular formula of the product obtained on heating lanthaniods (Ln) with sulphur?
LnS
LnS3
Ln3S2
Ln2S3
Choose the correct matching of transition metal ion and magnetic moment from the codes given below. (Atomic number: Ti = 22, V =23, Fe= 26)
Transition element | Magnetic moment (BM) |
A. Titanium (III) | i. 4.9 |
B. Vanadium (II) | ii. 1.73 |
C. Iron (II) | iii. 3.87 |
A - ii; B - iii; C - i
A - ii; B - i; C - iii
A - i; B - ii; C - iii
A - i; B - iii; C - ii
How is sodium chromate converted into sodium dichromate in the manufacture of potassium dichromate from chromite ore?
By the action of concentrated sulphuric acid
By roasting with soda ash
By the action of sodium hydroxide
By the action of limestone
Identify the metal that forms colourless compounds.
Iron (Z = 26)
Chromium (Z = 24)
Vanadium (Z=23)
Scandium (Z =21)
Consider the following statements.
I. La(OH)3 is the least basic among hydroxides of lanthanides.
II. Zr4+ and Hf4+ possess almost the same ionic radii.
III. Ce4+ can act as an oxidising agent.
Which of the above is/are true?
I and III
II and III
II only
I and II
Pick out the correct statement(s).
1. Manganese exhibits +7 oxidation state
2. Zinc forms coloured ions
3. [CoF6]3- is diamagnetic
4. Sc forms +4 oxidation state
5. Zn exhibits only +2 oxidation state
1 and 2
1 and 5
2 and 4
3 and 4
Pick out the correct statements from the following
1.Cobalt (III) is more stable in octahedral complexes.
2. Zinc forms coloured ions or complexes.
3. Most of the d-block elements and their compounds are ferromagnetic.
4. Osmium shows (VIII) oxidation state.
5. Cobalt (II) is more stable in octahedral complex.
1 and 2
1 and 3
2 and 4
1 and 4
Which of the following statements is not correct?
The complexes [NiCl4]2- and [Ni(CN)4]2- differ in the state of hybridization of nickel
The complexes [NiCl4]2- and [Ni(CN)4]2- differ in the magnetic properties
The complexes [NiCl4]2- and [Ni(CN)4]2- differ in geometry
The complexes [NiCl4]2- and [Ni(CN)4]2- differ in primary valencies of nickel
D.
The complexes [NiCl4]2- and [Ni(CN)4]2- differ in primary valencies of nickel
The primary valencies of Ni, in the complexes [Ni(Cl4)]2- and [Ni(CN4)]2- is same, i.e., (+II).
Primary valencies are those valencies in which a metal exhibits in the formation of its simple salt, these are non directional. It is also referred as oxidation state of central metal atom.