CBr4 is non polar in structure and nonpolar in bonding while finding the difference of electronegativity
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.
Covalent ~
CBr4 and SO3 have polar covalent bonds, yet they are nonpolar compounds. The shape of each molecule enables the charges to be distributed evenly, rather than being concentrated in one area. As a result, the molecule as a whole is nonpolar.
The molecule is nonpolar.
No, polar solutes are generally not soluble in nonpolar solvents.
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.
Yes, both ch3ch2ch2ch2ch3 and ch3ch2ch2ch2ch2ch3 are miscible since they are both alkanes with similar intermolecular forces. CBr4 and H2O are immiscible because CBr4 is nonpolar while H2O is polar, resulting in different intermolecular forces that prevent them from mixing. Cl2 and H2O are immiscible because Cl2 is a nonpolar molecule while H2O is polar, leading to differences in intermolecular forces that hinder their ability to mix.
Nonpolar
nonpolar
It is nonpolar
Covalent ~
nonpolar
nonpolar
CBr4 and SO3 have polar covalent bonds, yet they are nonpolar compounds. The shape of each molecule enables the charges to be distributed evenly, rather than being concentrated in one area. As a result, the molecule as a whole is nonpolar.
nonpolar
Polar
polar