It is polar not ionic no metal present.
Water is a polar molecule, not ionic.
Polar, because it contains unbalanced polar bonds.
Sodium chloride is an ionic molecule because it is formed by the transfer of electrons from sodium (Na) to chlorine (Cl). The resulting ions, Na+ and Cl-, are held together by strong electrostatic forces in a crystal lattice structure.
HF is a polar molecule, as the F atom is more electronegative than the H atom, creating an uneven distribution of charge. This polarity results in a dipole moment in the molecule.
NF3 is a polar covalent molecule. While the electronegativity difference between N and F suggests more ionic character, the shape of the molecule (trigonal pyramidal) results in an uneven distribution of charge, making it polar covalent.
Water is a polar molecule, not ionic.
no, ionic.
ionic compound
Polar, because it contains unbalanced polar bonds.
if the molecule is symmetrical, then it is nonpolar. if it is NOT symmetrical, it is polar. Ionic bonds form between a metal and a nonmetal.
Sodium chloride is an ionic molecule because it is formed by the transfer of electrons from sodium (Na) to chlorine (Cl). The resulting ions, Na+ and Cl-, are held together by strong electrostatic forces in a crystal lattice structure.
Sodium permanganate is an ionic compound because it is composed of a positively charged sodium ion (Na+) and a negatively charged permanganate ion (MnO4-). Ionic compounds are formed through the transfer of electrons between atoms.
HF is a polar molecule, as the F atom is more electronegative than the H atom, creating an uneven distribution of charge. This polarity results in a dipole moment in the molecule.
NF3 is a polar covalent molecule. While the electronegativity difference between N and F suggests more ionic character, the shape of the molecule (trigonal pyramidal) results in an uneven distribution of charge, making it polar covalent.
Ionic compound
because it is a polar molecule
The two factors are 1) the polarity of the bonds between the atoms in the molecule, and 2) the shape of the molecule. Basically, if the bonds are non-polar, the molecule is. If the bonds are polar, but the molecule is in such a shape that they cancel each other, the molecule is non-polar. If the bonds are polar and the molecule's shape doesn't cause them to cancel, the molecule is polar.