Intermolecular forces between C3 H8O and H2O
Explanation-
There are three intermolecular forces that could be working between isopropanol C3 H8O and water H2O, Dipole-Dipole Interaction, Hydrogen bonding, and Dispersion Forces.
Dipole Dipole Interaction:
Dipole Dipole forces could be happening between these two molecules because both molecules are polar. Also the positive charge on the H of the isopropanol could be attracted to the negative charge on the O of the water resulting in Dipole Dipole Interaction.
Hydrogen Bonding:
Hydrogen bonding can potentially occur between these two molecules because the positive charge on the H2O is attracted to the negative charge on the O in the C3H8O. Also as in the dipole dipole interactions, the positive charge on the H of the C3H8O could be attracted to the negative charge on the O in the H2O to form hydrogen bonding.
Dispersion Forces:
Dispersion forces are present between isopropanol and water because these forces can occur between any two adjacent molecules in liquid form, which is the form both molecules are in.
Click Here to go to Model of Isopropanol
Dipole Dipole Interaction:
Dipole Dipole forces could be happening between these two molecules because both molecules are polar. Also the positive charge on the H of the isopropanol could be attracted to the negative charge on the O of the water resulting in Dipole Dipole Interaction.
Hydrogen Bonding:
Hydrogen bonding can potentially occur between these two molecules because the positive charge on the H2O is attracted to the negative charge on the O in the C3H8O. Also as in the dipole dipole interactions, the positive charge on the H of the C3H8O could be attracted to the negative charge on the O in the H2O to form hydrogen bonding.
Dispersion Forces:
Dispersion forces are present between isopropanol and water because these forces can occur between any two adjacent molecules in liquid form, which is the form both molecules are in.
Click Here to go to Model of Isopropanol