Browse and search thousands of solved questions for your preparation.
Free questions with full explanations — locked behind signup to protect quality.
Which of the following alkanes cannot be made in good yield by Wurtz reaction?
Identify Z in the sequence of reactions: $\text{CH}_3\text{CH}_2\text{CH=CH}_2 \xrightarrow{\text{HBr/H}_2\text{O}_2} \text{Y} \xrightarrow{\text{C}_2\text{H}_5\text{O}^-\text{Na}^+} \text{Z}$
$CH_3-CH_2-CH=CH_2 \xrightarrow{HBr, \text{peroxide}} Y \xrightarrow{C_2H_5ONa} Z$ The product Z in the above-mentioned reaction is:
The major product of the following chemical reaction is:
Determine the IUPAC name of the compound with the molecular formula $\text{C}_6\text{H}_{14}$ that contains two tertiary carbon atoms.
The reaction of $C_6H_5CH=CHCH_3$ with HBr produces:
What is the correct order of acidity among the following compounds?
Which of the following statement(s) is/are correct about the elimination reaction of 2-Bromopentane to form pent-2-ene? (a) $\beta$-Elimination reaction (b) Follows Zaitsev rule (c) Dehydrohalogenation reaction (d) Dehydration reaction
The reaction of HBr with propene in the presence of peroxide gives:
Which amongst the following compounds will show geometrical isomerism?
Consider the following reaction. The structure of the major reaction intermediate formed in the above reaction is-
When subjected to ozonolysis, which compound results in the formation of the given molecule?
Compound X on reaction with $\text{O}_3$ followed by $\text{Zn/H}_2\text{O}$ gives formaldehyde and 2-methyl propanal as products. The compound X is:
The major product P formed in the following reaction sequence is:
The most suitable reagent for the following conversion is-
A compound possessing optical isomerism provided it has the molecular formula $\text{C}_7\text{H}_{16}$, would be:
A compound among the following that does not undergo Friedel-Craft's reaction easily is:
An alkene reacts in accordance with Markownikoff's rule to give a product of 1-chloro-1-methylcyclohexane with HCl. The possible alkene is:
The linear molecule among the following is:
Match List-I (Reactions) with List-II (Products). List-I: (A) (Missing) (B) (Missing) (C) (Missing) (D) (Missing) List-II: (I) $(\text{CH}_3)_2\text{C=O} + \text{CO}_2 + \text{H}_2\text{O}$ (II) (Missing) (III) (Missing) (IV) $(\text{CH}_3)_3\text{C-OH}$ Choose the correct answer from the options given below: