A compound insoluble in acetic acid is -
1. Calcium oxide.
2. Calcium carbonate.
3. Calcium oxalate.
4. Calcium hydroxide.
Assertion : LiF is almost insoluble in water
Reason : LiCl is soluble not only in water but also in acetone.
Assertion : s-block elements do not occur free in nature
Reason: s-block elements are highly electropositive in nature.
1. Both A and R are true and R is the correct explanation of A.
2. Both A and R are true, but R is not the correct explanation of A.
3. A is true, but R is false.
4. Both A and R are false.
Assertion : Potassium and caesium are useful as electrodes in photoelectric cells.
Reason : Potassium and caesium, when irradiated with light, the light energy absorbed is sufficient to eject out the electron from an atom.
Assertion : The alkaline earth metals have much higher melting and boiling points than those of the alkali metals.
Reason : The melting and boiling points of alkaline earth metal do not vary in a regular fashion.
Assertion : The ionisation enthalpies of alkaline earth metals are fairly low.
Reason : In general, the low ionisation enthalpies of alkaline earth metals are due to large size of their atoms.
Both Be and Al become passive on reaction with concentrated nitric acid due to:
(1) The non-reactive nature of the metal.
(2) The non-reactive nature of the acid.
(3) The formation of an inert oxide layer on the surface of the metals
(4) None of these.
Magnesia can be prepared by -
1. Burning Mg in air.
2. Heating hydroxide, nitrate, sulphate or carbonate of magnesium.
3. Heating Mg in steam.
4. All of the above.
A compound X on heating gives a colourless gas. The residue is dissolved in water to obtain Y. Excess is bubbled through an aqueous solution of Y, and Z is formed. Z on gentle heating gives back X. The compound X is-
1.
2.
3.
4.
Alkali metal ions are-
1. Diamagnetic and coloured.
2. Diamagnetic and colourless.
3. Paramagnetic and coloured.
4. Paramagnetic and colourless.