Hybridisation Of Atomic Orbitals and Shape of Molecules Part-2,geometry of molecules,factors affecting bond angle

Hybridisation Of Atomic Orbitals and Shape of Molecules Part-1,Important features of hybrid orbitals

Predict hybridisation and shape of SF_(4) molecule.

The hybridisation and molecular geometry of BrF_3 molecules are :

Hybridisation And Shapes Of Molecules Containing Bond Pairs And Lone Pairs Of Electrons

The space model which is obtained by joining the points representing various bonded atoms gives the shape of the molecule. The geometry of the molecule is definite relative arrangement of the bonded atoms in a molecule. The shape and geometry of a molecule is explained by valence shell electron pair repulsion theory given by Gillespie and Nyholm. Which is not the electron geometry of covalent molecules ?

The space model which is obtained by joining the points representing various bonded atoms gives the shape of the molecule. The geometry of the molecule is definite relative arrangement of the bonded atoms in a molecule. The shape and geometry of a molecule is explained by valence shell electron pair repulsion theory given by Gillespie and Nyholm. Which molecule has both shape and geometry identical ? (I) SnCl_(2) " " (II) NH_(3) " " (III) PCl_(5) " " (IV) SF_(6)

The space model which is obtained by joining the points representing various bonded atoms gives the shape of the molecule. The geometry of the molecule is definite relative arrangement of the bonded atoms in a molecule. The shape and geometry of a molecule is explained by valence shell electron pair repulsion theory given by Gillespie and Nyholm. Select the correct code for the following repulsion orders, according to VSEPR theory : (I) lone pair -lone pair gt lone pair-bond pair (II) lone pair-bond pair gt bond pair -bond pair (III) lone pair -lone pair gt bond pair-bond pair (IV) lone pair - bond pair gt lone pair-lone pair