Want this question answered?
The only intermolecular forces in this long hydrocarbon will be dispersion forces.
London dispersion forces
Dipole-Dipole and covalent sigma bond forces.
London or vanderwal force
London dispersion forces (instantaneous induced dipole-dipole interactions.)
The only intermolecular forces in this long hydrocarbon will be dispersion forces.
The question is incomplete. No options (for which of the following) are given to answer the question.
London dispersion forces
There are different types of forces that must be overcome to either vaporize or melt a given substance. These forces includes the hydrogen bond, the London dispersion forces, and the dipole-dipole forces.
Dipole-Dipole and covalent sigma bond forces.
London or vanderwal force
Dispersion forces
Hydrogen bonding and London Dispersion forces (the latter of which are in all molecules).
yes, CH4 has London dispersion forces because it is a non-polar molecule and non-polar molecules have London dispersion forces present in them. there are no other forces present in CH4.
Dipole-dipole interactions, and London dispersion interactions
C6H14 - dispersion forces H2O - hydrogen bonding, dipole, dispersion HCHO - dipole, dispersion C6H5OH - hydrogen bonding, dipole, dispersion
London dispersion forces (instantaneous induced dipole-dipole interactions.)