Hybridisation Flashcards
1
Q
Hybridisation
A
The electrons rearrange themselves again after 1 electron is promoted in a process called hybridisation. This reorganises the electrons into hybrid orbitals
2
Q
sp3 hybridisation
A
- 1 electron from 2s orbital is promoted to empty 2p orbital
- atom is now in excited state
- hybridisation of 1 s-orbital and 3 p-orbital
- 4 sp3 hybrids orbitals are available for bonding
- ie. methane CH4
3
Q
Before sp3 hybridisation
A
After sp3 hybridisation
4
Q
Bonds formed from sp3 hybridisation
A
- 4 sigma bonds
- Therefore, 4 single bonds are formed
- ie. methane CH4
5
Q
sp2 hybridisation
A
- 1 electron from 2s orbital is promoted to empty 2p orbital
- atom is now in excited state
- hybridisation of 1 s-orbital and 2 p-orbital. 1 p-orbital doesnt take part in hybridisation
- 3 sp2 hybrids orbital and 1 p-orbital are available for bondings
- ie, ethene
6
Q
Before sp2 hybridisation
A
After sp2 hybridisation
7
Q
Bonds formed from sp 2 hybridisation
A
- 3 sigma bonds (single bonds) & 1 pi bond
- 1 sigma bond and 1 pi bond forms 1 double bond
- therefore, 3 single bonds with 1 empty p-orbital
- or 2 single bond and 1 double bond are formed
- ie, ethene C2H4
8
Q
sp1 hybridisation
A
- 1 electron from 2s orbital is promoted to empty 2p orbital
- cabon atom is now in excited state
- hybridisation of 1 s-orbital and 1 p-orbital. 2 p-orbital doesnt take part in hybridisation
- 2 sp1 hybrids orbital and 2 p-orbital are available for bonding
- ie,ethyene C2H2
9
Q
Before sp1 hybridisation
A
After sp1hybridisation
10
Q
Bonds formed from sp1 hybridisation
A
- 2 sigma bonds (single bonds) & 2 pi bond
- 1 sigma bond and 2 pi bond forms 1 triple bond
- therefore, 2 single bonds with 2 empty p-orbital
- or 1 single bond and 1 triple bond are formed
- ie, ethyene C2H2
