Answer 1:The presence of polar bonds
Answer 2:The shape of the molecule
Apex
The shape of the molecule and The electronegativity differences of atoms in the molecule
An iodine molecule is formed by two 'I' atoms. It implies that the molecule is symmetrical and it is non-polar.
A molecule with two polar bonds of different polarities can still be polar if the individual bond dipoles do not cancel each other out. The overall polarity of the molecule depends on its geometry and symmetry. If the molecule is linear, it will not be polar regardless of the differing bond polarities. If it is bent or asymmetrical, it will be polar.
A polar bond occurs when there is an unequal sharing of electrons between two atoms in a molecule, creating a partial positive and partial negative charge. A polar molecule, on the other hand, is a molecule that has an overall uneven distribution of electron density, resulting in a positive and negative end. In summary, a polar bond refers to the relationship between two atoms, while a polar molecule describes the entire molecule as a whole.
Clothing and rugs are two things
The shape of the molecule and The electronegativity differences of atoms in the molecule
No. Fluorine is an element. Two atoms of the same element will not form a polar bond because there is no difference in electronegativity.
Not necessarily. A molecule with two polar covalent bonds may or may not be polar, depending on the overall molecular geometry and symmetry. If the polar bonds are symmetrically arranged and cancel each other out, the molecule could be nonpolar.
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.
The polarity of the molecule will depend on the electronegativities of the 2 atoms involved. For example, a molecule of F2 where F binds to F will be non polar as there is no difference in electrnegativities. However, a molecule of HF will be polar because F is more electronegative than is H.
a non polar covalent molecule
Two ends (poles).