Example of geometrical isomerism is
2-butanol
2-butene
butanal
2- butyne
B.
2-butene
Presence of at least one double bond and different groups at the double bonded carbon atoms are the two essential conditions for exhibiting geometrical isomerism.
Since, 2-butene contains a double bond and the groups attached with double bonded carbon are different, it exhibits geometrical isomerism and the geometrical isomers are as:
A metal 'M' reacts with N2 to give a compound 'A' (M3N). 'A' on heating at high temperature gives back 'M' and 'A' on reacting with H2O give a gas B. 'B' turns CuSO4 solution blue on passing through it. M and B can be
Al and NH3
Li and NH3
Na and NH3
Mg and NH3
CH3CH2CH(OH)CH3 and CH3(CH2)2CH2OH can be distinguished by
Lucas test
Iodoform test
Victor-Meyer's test
All of the above
The compound which does not exhibit geometrical isomerism, is
CH3CH=CHCOOH
Br-CH=CH-Br
C6H5CH=NOH
Which of the following is the most reactlve towards ring nitration ?
benzene
toulene
m-xylene
mesitylene
Racemic compound has
equimolar mixture of enantiomers
1 : 1 mixture of enantiomer and diastereomer
1 : 1 mixture of diastereomers
1 : 2 mixture of enantiomers
In which of the following ways does the hydride ion tend to function ?
An electrophile
A nucleophile
A free radical
An acid