Hybrid orbital with least s - character is

`sp^3d`
`sp^2`
`sp^3`
`sp`

sp^(3) hybrid orbitals have equal s and p characters .

A sp3 hybrid orbital contains: what percent of S character

What is the percentage of s- character in sp, sp^2 and sp^3 hybrid orbitals?

In the valence bond theory, hybridisation of orbitals is an integral part of bond formation.Hybridisation consists of mixing or linear combination of the "pure" atomic orbitals in such a way as to form new hybrid orbitals such as sp, sp^2, sp^3, sp^3d , sp^3d^2 etc. Now answer the following questions : Which of the following atomic orbitals does not participitate in trigonal bipyramidal hybridisation i.e. sp^3d hybridisation ?

In the valence bond theory, hybridisation of orbitals is an integral part of bond formation.Hybridisation consists of mixing or linear combination of the "pure" atomic orbitals in such a way as to form new hybrid orbitals such as sp, sp^2, sp^3, sp^3d , sp^3d^2 etc. Now answer the following questions : Which one of the following molecular geometrices (i.e. shapes) is not possible for the sp^3d^3 hybridisation ?

Number of sp^2 hybrid orbitals in Benzene is

Number of sp^2 hybrid orbitals in Benzene is

In the valence bond theory, hybridisation of orbitals is an integral part of bond formation.Hybridisation consists of mixing or linear combination of the "pure" atomic orbitals in such a way as to form new hybrid orbitals such as sp, sp^2, sp^3, sp^3d , sp^3d^2 etc. Now answer the following questions : Which of the following are isostructural ? {:(NO_3^(-),CO_3^(2-),CIO_3^(-),SO_3,XeO_3),((I),(II),(III),(IV),"(V)"):}

According to hybridisation theory, the % s-character in sp, sp^(2) and sp^(3) hybrid orbitals is 50, 33.3 and 25 respectively, but this is not true for all the species. When theta is the bond angle between equivalent hybrid orbitals then % s and p-character in hybrid orbitals (when only s and p-orbitals are involved in hybridisation) can be calculated by the following formula : costheta=(S)/(S-1)=(P-1)/(P) Q. Smallest Ohat(S)O bond angle is found in :

According to hybridisation theory, the % s-character in sp, sp^(2) and sp^(3) hybrid orbitals is 50, 33.3 and 25 respectively, but this is not true for all the species. When theta is the bond angle between equivalent hybrid orbitals then % s and p-character in hybrid orbitals (when only s and p-orbitals are involved in hybridisation) can be calculated by the following formula : costheta=(S)/(S-1)=(P-1)/(P) Q. Correct order of P-P bond length in the following compound is :