The only type of molecule that can only experience London forces (also known as Van der Waals interaction) is a non polar one. This can only occur in two situations:
If your choices are...
a. HF
b. C2H5OH
c. C4H10
d. NaC2H3O2
e.CH2Cl2
The answer is C.
van der Waals forces of attractions.
Intermolecular forces are of the type(1) hydrogen bonds (2) dipole-dipole attractions (3) dispersion forces (van der Waals, etc.)
Cohesive forces, or intermolecular attractions, hold liquids and solids together. Without intermolecular attractions, only gases could exist. (And plasmas too, but that's not the point of this question.)
the strength depends on the molecule in question, but they are strong
Melting involve that intermolecular forces are weakened.
Intramolecuar forces are covalent bonds these involve the sharing of electrons. Intermolecular bonds are electrostatic in origin such as hydrogen bonds and London disprion forces which involve attractions between small charges.
London forces, dipole attractions and hydrogen bonding are some of the examples for intermolecular attractions in the order of increasing strength.
van der Waals forces of attractions.
dipole-dipole attractions
There are dipole attractions and hydrogen bonds present in HClO.
Intermolecular forces are of the type(1) hydrogen bonds (2) dipole-dipole attractions (3) dispersion forces (van der Waals, etc.)
A volatile liquid is easy to vaporize because there are weak intermolecular attractions between its molecules. A nonvolatile liquid is difficult to vaporize because there are strong intermolecular attractions between its molecules.
intermolecular forces examples are dispersion forces
Cohesive forces, or intermolecular attractions, hold liquids and solids together. Without intermolecular attractions, only gases could exist. (And plasmas too, but that's not the point of this question.)
intermolecular forces
Intermolecular forces are the forces between molecules which hold two or more of them together; intramolecular forces happen inside of the molecule, & are the forces holding the atoms together witch form the molecule.
Intermolecular forces are the forces of attraction that exist between molecules in a compound. The stronger the attractions between particles the more difficult it will be to separate them. When substances boil, the particles are completely separated from one another and the attractions between the molecules are completely overcome.