polar covalent
Yes, SCl2 is a polar covalent molecule. This is because there is a significant difference in electronegativity between sulfur and chlorine atoms, causing an uneven distribution of electron density and resulting in a net dipole moment.
The bond angle of the molecule SCl2 is approximately 103 degrees.
No, SCl4I2 is a nonpolar molecule. Even though it contains polar bonds between sulfur and iodine, the overall molecular geometry of the molecule is symmetrical, resulting in a net dipole moment of zero.
TeCl4 is a non-polar molecule. The molecule's symmetrical tetrahedral shape and similar electronegativities of chlorine and tellurium atoms result in a balanced distribution of charge, making the molecule non-polar.
Oil is a non-polar molecule because it is made up of hydrocarbons, which have a relatively even distribution of electrons and do not have any significant polar bonds. This lack of polarity is what allows oil to repel water and other polar substances.
Yes, SCl2 is a polar covalent molecule. This is because there is a significant difference in electronegativity between sulfur and chlorine atoms, causing an uneven distribution of electron density and resulting in a net dipole moment.
yes it is a non polar molecule
The bond angle of the molecule SCl2 is approximately 103 degrees.
A polar molecule.
O2 is non polar molecule .
non-polar molecule
oil is non polar molecule
it is polar (inorganic) molecule
non-polar molecule
You need to look at the molecular geometry using VSEPR theory in order to answer this question. If you do so, you'll find that one of the molecules is both planar and symmetric within that plane. That's the non-polar compound. (In other words: I've given you a hint; do your own homework.) the hint is about BCl3 but it has a net dipole so it is also polar.
An iodine molecule is formed by two 'I' atoms. It implies that the molecule is symmetrical and it is non-polar.
No, SCl4I2 is a nonpolar molecule. Even though it contains polar bonds between sulfur and iodine, the overall molecular geometry of the molecule is symmetrical, resulting in a net dipole moment of zero.