Greater attraction of the chlorine nucleus for the shared electrons, large differences in electronegativity, and shape of the molecule.
The polarity is a vector quantity. The resultant of the polarity of bonds determines the polarity of the molecule. In CO2 there is polarity between the two C-O but the polarity is equal and opposite in direction so CO2 doesn't have polarity. If the polarity of bonds is not cancelled then the polarity remains in the molecule.
Yes. HCl is a binary acid as well as a diatomic molecule
hcl
A sulfur molecule has zero polarity.
Because an HCl molecule is diatomic it is impossible for it to be anything other than linear.
Every molecule has a polarity. They can either be non-polar (same on both sides) or polar (different on both sides). For example the molecule CO2 is a non-polar molecule. H20 (water) is a polar molecule (due to Valence Shell Electron Pair Repulsion theory (VSEPR)).
The polarity is a vector quantity. The resultant of the polarity of bonds determines the polarity of the molecule. In CO2 there is polarity between the two C-O but the polarity is equal and opposite in direction so CO2 doesn't have polarity. If the polarity of bonds is not cancelled then the polarity remains in the molecule.
Yes. HCl is a binary acid as well as a diatomic molecule
C.A molecule that has a symmetrical shape will be a nonpolar molecule.
C.A molecule that has a symmetrical shape will be a nonpolar molecule.
Differences of polarity between different compounds (molecules) have two causes: - differences of asymmetry between these molecules - differences between the electronegativity of the atoms contained in the molecule
hcl
A sulfur molecule has zero polarity.
Because an HCl molecule is diatomic it is impossible for it to be anything other than linear.
when the molecule contains polar bond
when the molecule contains polar bonds
when the molecule contains polar bonds