There are both London Dispersion forces and Dipole-Dipole forces within Acetone.
Acetone is a molecular compound. It consists of individual molecules made up of covalently bonded atoms, specifically carbon, hydrogen, and oxygen.
Acetone is easily soluble in chloroform because both acetone and chloroform are polar organic solvents with similar chemical properties. This allows them to mix and dissolve in each other easily. Additionally, both molecules have a similar structure and molecular weight, further enhancing their solubility in one another.
Acetone is a molecular compound. It is composed of carbon, hydrogen, and oxygen atoms bonded together covalently, rather than through ionic bonds.
The major force that governs the interaction between acetone and chloroform is dipole-dipole interactions.
The acetone molecule has a molecular weight of 58.08 g/mol and a molecular formula of C3H6O, which consists of 3 carbon atoms, 6 hydrogen atoms, and 1 oxygen atom. The actual size of the molecule would depend on its structure and arrangement of atoms in its three-dimensional space.
Intermolecular forces are weak in gases.
Acetone is a molecular compound. It consists of individual molecules made up of covalently bonded atoms, specifically carbon, hydrogen, and oxygen.
Acetone is easily soluble in chloroform because both acetone and chloroform are polar organic solvents with similar chemical properties. This allows them to mix and dissolve in each other easily. Additionally, both molecules have a similar structure and molecular weight, further enhancing their solubility in one another.
Van der Waals forces APEX
Ionic bond is only interatomic and based on electrostatic attraction.
Hydrogen bonding, which is the strongest of the intermolecular forces.
No. They are inter molecular forces acting between two different molecules.
Acetone is a molecular compound. It is composed of carbon, hydrogen, and oxygen atoms bonded together covalently, rather than through ionic bonds.
When gas is released in a container the gas molecules spread all over the container and show that they have least force of attraction.
Stearic acid since it is nonpolar and H2O is polar.
Inter-atomic or inter-molecular collisions.
The liquid state is caused by intermolecular forces.