(Polar molecules, Non-polar molecules, etc.)
12 posts • Page 1 of 1
Lone pairs repulse bonds even more than other bonds do because they belong to the respective atom alone instead of being shared. Because of this, they push on the existing bonds more, resulting in an even more distorted shape. They are not considered when identifying the shape, but they contribute to the formation of the molecule's shape.
A lone pairs repel a bonding pair more than a bonding pair repels a bonding pair. Two lone pairs have the highest level of repulsion, then a lone pair and a bonded pair, and two bonded pairs have the lowest level of repulsion.
The lone paired cause repulsion with other atoms. The more lone pairs there are the more repulsion there is causing bond angles in molecular shape to decrease depending on the plane it is in. Lone pairs are the reason why molecules such as H2O have a bent shape, it has 2 lone pairs of electrons which is a stronger repulsion compared to a molecule that has one pair of electrons such as SO2.
Lone pairs push existing bonds and thus distort the original shape of the atom. The repulsion between lone pair electrons and shared electrons is what causes the electron arrangement and molecular shape of a molecule to differ.
Lone pairs affect the structure of the VSEPR model beacues they have the highest repulsion so they try to be fathest apart from each other. Also they cause repulsion with the other atoms bonded with the central atom which is why the angles of some shapes turn out to be slightly smaller than the original angle.
Who is online
Users browsing this forum: HilaGelfer_3I and 3 guests