Neither polar nor non polar it is an ionic compound.
Yes, beryllium dichloride (BeCl2) is a nonpolar molecule. It has a linear molecular geometry due to the arrangement of atoms around the central beryllium atom, resulting in symmetrical distribution of charge and no permanent dipole moment.
XeCl2 (xenon dichloride) is a polar molecule. Although the individual Xe-Cl bonds are polar due to the difference in electronegativity between xenon and chlorine, the molecule has a bent geometry, which results in an unequal distribution of charge. This asymmetry leads to a net dipole moment, making XeCl2 polar.
Nonpolar
It is non-polar
Polar molecules reacts with polar molecules and non-polar molecules react with non-polar molecules.
Yes, beryllium dichloride (BeCl2) is a nonpolar molecule. It has a linear molecular geometry due to the arrangement of atoms around the central beryllium atom, resulting in symmetrical distribution of charge and no permanent dipole moment.
XeCl2 (xenon dichloride) is a polar molecule. Although the individual Xe-Cl bonds are polar due to the difference in electronegativity between xenon and chlorine, the molecule has a bent geometry, which results in an unequal distribution of charge. This asymmetry leads to a net dipole moment, making XeCl2 polar.
They're polar, because they have different electronegativity values, so each atom attracts the electons with different "strenght".
Dude - you obviously mean Nickel-Dichloride, which is NiCl2. Note the lowercase i. This is important. Please, in the future, fail at failing. KTHXBYENo-he actually didn't mean nickel-dichloride. He meant NICl2, which is polar. I think most people know the difference between capital and lowercase I.
The major force in dichloride is the dipole-dipole interaction. Since dichloride has a polar covalent bond between the chlorine atoms, there is an unequal sharing of electrons leading to a partial positive and partial negative charge on each chlorine atom. This results in an attraction between the partially positive and partially negative ends of adjacent molecules.
non-polar
It is non polar.
Polar contains polar. Non-polar contains nothing.
SnF2 is a polar compound because of the difference in electronegativity between tin (Sn) and fluorine (F) atoms, resulting in an unequal sharing of electrons. This uneven distribution of charge creates a dipole moment in the molecule, making it polar.
ClO4 is polar.
Nonpolar
It is non-polar, covalent.