N2 IS CORRECT. The reason for this is because it is a non polar molecule, there are no polar bonds between each N-N atom and it the least polarizable of the ones listed.
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.
The only intermolecular forces possiable between hexane and water are london dispersion forces because hexane only exhibits LDF while water is polar and exhibits LDF, dipole-dipole and hydrogen bonding.
Only Induced dipole forces, also called dispersion forces, or London forces. NH2Cl is a polar molecular compound. Therefore, the intermolecular forces also include dipole forces.
Hydrogen bonding and London Dispersion forces (the latter of which are in all molecules).
Dipole-dipole interactions, and London dispersion interactions
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.
The only intermolecular forces in this long hydrocarbon will be dispersion forces.
The only intermolecular forces possiable between hexane and water are london dispersion forces because hexane only exhibits LDF while water is polar and exhibits LDF, dipole-dipole and hydrogen bonding.
London dispersion forces
Dipole-Dipole and covalent sigma bond forces.
Only Induced dipole forces, also called dispersion forces, or London forces. NH2Cl is a polar molecular compound. Therefore, the intermolecular forces also include dipole forces.
London forces
hydrogen, London dispersion, and dipole - dipole
London dispersion vander walls force
Hydrogen bonding and London Dispersion forces (the latter of which are in all molecules).
London dispersion forces (instantaneous induced dipole-dipole interactions.)
No, since its a polar compound its also considered to be polar. Therefore, it has dipole-dipole forces