C.A molecule that has a symmetrical shape will be a nonpolar molecule.
This question is reversed in terms of the correct cause and effect relationships. Polarity of the molecule is driven by electronegativity, with the oxygen in water as a prime example. In turn this electronegativity causes the bend in the water molecule and thus its characteristic dipole moment. This moment serves to allow hydrogen bonding. This is the core relationship between polar bonds and molecular polarities.
the polarity of molecules brings them closer to each other due to attractions between opposite poles . high amount of energy is required to covert the liquid into vapours so such liquids have high boiling point.
A more polar molecule will have a higher melting point. A polar molecule will have a strong dipole-dipole bond and will require more energy to break that bond.
When the molecular polarity increase, the melting and boiling points are increased also.
Due to strong attraction force between to poles of CMPD so it need large amount of electricity For breaking Crystal lattice and over come the attraction force between the two poles
It makes it either soluble or partially soluble with water and other polar molecules
When the molecule contains polar bonds
It doesn't at all.
god knows
when the molecule contains polar bond
Phosphorus triiodide is a nonpolar molecule.
Greater attraction of the chlorine nucleus for the shared electrons, large differences in electronegativity, and shape of the molecule.
A diamond. Also the shape of a molecule can only affect physical properties.
it determines how the molecule functions
C.A molecule that has a symmetrical shape will be a nonpolar molecule.
C.A molecule that has a symmetrical shape will be a nonpolar molecule.
when the molecule contains polar bond
when the molecule contains polar bonds
when the molecule contains polar bonds
when the molecule contains polar bonds
when the molecule contains polar bonds
A symmetrical molecule cancels out the effects of polar bonds.
Phosphorus triiodide is a nonpolar molecule.
The correct answer is: The shape of a molecule determines its properties and interactions.
The correct answer is: The shape of a molecule determines its properties and interactions.
Greater attraction of the chlorine nucleus for the shared electrons, large differences in electronegativity, and shape of the molecule.