An organic compound A reacts with sodium metal and forms B. On heating with conc. H2SO4, A gives diethyl ether. So A and B are:
1. C3H7OH and CH3ONa
2. CH3OH and CH3ONa
3. C4H9OH and C4H9ONa
4. C2H5OH and C2H5ONa
1. | Lead compounds in liquor | 2. | Methyl alcohol in liquor |
3. | Ethyl alcohol in liquor | 4. | Carbonic acid in liquor |
Upon dehydration, the below mentioned compound will not give:
1. | 2. | ||
3. | 4. |
Consider the following alcohols,
I. | |
II. | |
III. | |
IV. |
Ease of dehydration of the above alcohols will be in the order of-
1. | I < II < III < IV | 2. | I > II > III > IV |
3. | III < II < I < IV | 4. | II < III < IV < I |
The best method to prepare cyclohexene from cyclohexanol is by using:
1. | conc. HCl + ZnCl2 | 2. | conc. H3PO4 |
3. | HBr | 4. | conc. HCl |
A | B | |
1. | ||
2. | ||
3. | ||
4. |
The correct order of dehydration of compounds (i), (ii) and (iii) by conc. H2SO4 is:
(i) | |
(ii) | |
(iii) |
1. (i) > (iii) > (ii)
2. (i) > (ii) > (iii)
3. (ii) > (i) > (iii)
4. (ii) > (iii) > (i)
Optically active 2-octanol rapidly loses its optical activity when exposed to :
1. | Dilute acid | 2. | Dilute base |
3. | Light | 4. | Humidity |
The most reactive compound among the following toward electrophilic aromatic substitution reaction is:
1. | 2. | ||
3. | 4. |
The proposed mechanism for hydration of ethene to yield ethanol is as follows:
The wrong step in the above mechanism is:
1. Step 1
2. Step 2
3. Step 3
4. Both steps 2 and 3