The intermolecular force of isopropyl ester is related to classical Chinese as follows:

The effect of the force between the molecules is worth exploring. Molecules come together, and there are various forces. Van der Waals force, which maintains it, although this force is small, it has its work in the affinity and clutch of the molecule.

The force of dispersion originates from the instantaneous displacement of electrons and the instantaneous emergence of molecular dipoles. Although it changes rapidly, the interaction of many molecules also becomes a considerable attractive force.

Furthermore, the dipole-dipole force, due to the inherent dipole of the isopropyl ester molecule, the positive and negative charge centers do not coincide, and the dipole interaction between adjacent molecules makes the molecules approach each other and increase their aggregation potential.

Although the force of hydrogen bonding is in isopropyl ester or non-dominant, when conditions are appropriate, it may also participate in the correlation between molecules and strengthen its bonding state. This intermolecular force, the microscopic state of co-isopropyl ester, is related to its physical properties, such as melting boiling point, solubility, etc., and is subject to its regulation, which cannot be ignored.