No.of geometrical isomers possible for the compound `CH_(3)-CH=CH-CH=CH-C_(2)H_(4)`

CH_3 - CH =undersetoverset(|)( C)(C ) - undersetoverset(|)(C )(C ) = CH - CH_3 Number of geometrical isomers possible for this compound are

CH_(3)-CH=underset(Br)underset(|)C-underset(Cl)underset(|)C=CH-CH_(3) Number of geometrical isomers possible for this compound are

The number of isomers (geomctrical and optical) possible for the compound with the structure CH_3 CH=CH-CH=CH-CH_2 CHOHCH_3 is

Which organic structure among the following is not an isomer of the compound CH_(3)-CO-CH_(2)CH_(2)CH_(2)CH_(3) ?

Those stereoisomers are called configurational isomers if they differ in spatial arrangement of atom or group and are not interconvertible without cleaving a bond. Geometrical isomer arises due to restricted rotation about a bond or centre. The number of G.I is 2^(n) where n= number of stereoisomers, in some cases the number of G.I is less than 2^(n) in case where either side nomenclature will be possible. The number of G.I. of the compound C_(2)H_(5)-CH=CH-CH=CH-CH=CH-CH_(3) is

Write IUPAC names of the following compounds. CH_(3)-CH=CH-CH_(2)-CH=CH-underset(C_(2)H_(5))underset(|)(CH)-CH_(2)-CH=CH_(2)

Total number of stereoisomers of the following compound is CHCl=CH-CH(CH_(3))C_(2)H_(5)

The number of stereoisomers possible for a compound of the molecular formula CH_3 - CH = CH - CH (OH) - Me is