polar
No, CBr4 and H2O will not form a homogeneous solution. CBr4 is a nonpolar compound, while H2O is polar. Due to the significant difference in polarity, they will not mix evenly to form a homogeneous solution.
C10H8 (naphthalene) is nonpolar because it consists of only carbon and hydrogen atoms, which have similar electronegativities. As a result, the molecule does not have any significant dipole moment and is considered nonpolar.
H-H
No, the bonds between oxygen and hydrogen are polar since oxygen's electronegativity rating is higher, so the oxygen side of the bent atom is considered the 'negative pole' in the dipole molecule.
The order of increasing solubility in hexane is H2O, CH2OHCH2OH, C10H22, C6H14. Hexane is nonpolar, so substances with stronger hydrogen bonding (like water and ethylene glycol) are less soluble compared to nonpolar substances like C6H14 and C10H22.
The actual answer should be an anion which are polar species.
Technically all H2O molecules are polar.
No, CBr4 and H2O will not form a homogeneous solution. CBr4 is a nonpolar compound, while H2O is polar. Due to the significant difference in polarity, they will not mix evenly to form a homogeneous solution.
C10H8 (naphthalene) is nonpolar because it consists of only carbon and hydrogen atoms, which have similar electronegativities. As a result, the molecule does not have any significant dipole moment and is considered nonpolar.
It is polar, not polor.
It is polar because it is asymmetrical
I will assume Hsub2O is H2O [water] Water is a polar molecule.
C2H2 and CO2 are linear molecules and are non polar.
H2O is a polar molecule; +H3O is even more so.
H-H
No, the bonds between oxygen and hydrogen are polar since oxygen's electronegativity rating is higher, so the oxygen side of the bent atom is considered the 'negative pole' in the dipole molecule.
Stearic acid since it is nonpolar and H2O is polar.