No, H-F is more polar because fluorine, F, is more electro-negative than chlorine, Cl.
Hydrogen fluoride has the most polar molecule.
HBr
The polarity of a bond increases with the increment of the difference of electronegativity between the corresponding two atoms. Therefore HCl is most polar whereas HI is the weakest among the given.
Some gases have polar molecules as HCl, HBr, SO2, but not all gases have polar molecules.
There is only one.It is a polar bond.
HCl effuses faster due to less molecular mass (36.5) as compare to HBr (81).
HBr
The polarity of a bond increases with the increment of the difference of electronegativity between the corresponding two atoms. Therefore HCl is most polar whereas HI is the weakest among the given.
Some gases have polar molecules as HCl, HBr, SO2, but not all gases have polar molecules.
There is only one.It is a polar bond.
HCl effuses faster due to less molecular mass (36.5) as compare to HBr (81).
actually HBr is stronger acid than HCl so i think you got something mixed up
HCL has a higher boiling point compared to HBr This is due to difference in electronegativity. H - 2.1 Cl - 3.0 Br - 2.8 The difference for HCl is 0.9, the difference for HBr is 0.7. The larger the difference in electronegavity means the stronger the bond. Large difference means greater attraction hence more energy is needed to overcome this bond.
In a solution of HCL and water, H20 has stronger polar bonds toward HCL causing it to disassociate into H+ and Cl- Ions. Benzene doesnt have those types of polar bonds so HCL doesnt dissolve as readily. (salt and water1 vs. oil and water2.)(the second water acting as benzene would.)
yes it is, because HBr is a stronger acid than HCl, therfore, HBr will have a weaker conjugate base, Br, than HCl, Cl
There are many, the most common being H2SO4, HCl, HBr, HI, HNO3, and HClO4
This is to do with the intermolecular forces in the two compounds. There are no hydrogen bonds between the molecules of either compound, since Br and I are not electronegative enough to polarise the molecules sufficiently. But since HI molecules contain more electrons than HBr, there are increased van der Waals forces in HI. For the same reason HBr has a higher boiling point than HCl, but HF has a higher boiling point than HCl, HBr or HI because of hydrogen bonding.
Polar (covalent) bonds share electrons in an unequal distrbutium between bith atomic nuclides.