F has more electronegative. That means that F doesn't share electrons nicely. It holds the electron closer and doesn't let H have it much. This makes F more negative and H more positive.
HF is a weak polar bond
It is polar covalent bond because electrons forming the bond are unequally distributed.
Yes but it is polar
Hydrogen fluoride, with the symbol HF, is a polar molecule. This is due to fluorine being more electronegative compared to hydrogen. This creates a difference in electronegativity, which makes HF a polar bond.
yes it is a polar covalent bond. the difference of electronegativities of H and F is 1.9 , it should be an ionic bond but the ratio of atomic sizes of both the atoms is responsible for polar covalent bond.
HF is a weak polar bond
It is polar covalent bond because electrons forming the bond are unequally distributed.
Yes but it is polar
A good candidate would be the bond in HF.
HF has a polar covalent bond.
Hydrogen fluoride, with the symbol HF, is a polar molecule. This is due to fluorine being more electronegative compared to hydrogen. This creates a difference in electronegativity, which makes HF a polar bond.
yes it is a polar covalent bond. the difference of electronegativities of H and F is 1.9 , it should be an ionic bond but the ratio of atomic sizes of both the atoms is responsible for polar covalent bond.
a very polar, single, covalent bond, yes. This would be an ionic bond. The electronegativity of Hydrogen is about 2.2 and the electronegativity of Fluorine is about 4.0. The difference is 1.8 which is greater than 1.7, the minimum difference for an ionic bond. Or it is (at least) a very polar-covalent bond. Figures 1.7 or 1.8 are in the 'discussion' range
HF is polar and linear. But CO2 is nonpolar because it is linear. It has two equally polar bond pulling electrons in opposite directions and cancel each other out.
There are so many such compounds as H2O, HF.
Covalent. The bond is polar due to the high electronegativity of fluorine.
No single element can form a bond. Only 2 or more elements can form bonds. Polar bonds occur when there is a dipole moment, or there is asymmetry in the structure. For example, HF forms a polar covalent bond.