Everything around us is a matter which has some physical and chemical properties. Matter around us exists in different states. For a matter to occur in different states there has to be some kind of force between the atoms of this matter to hold the atoms together. These forces which are responsible for the existence of matter. Forces can be understood as some kind of fastener that holds things or bind them together.
In the case of atoms, some kind of force is needed to keep the atomic particles electrons, protons and neutrons inside the atom and hold them together for the stability of atoms. Electrons move in circular orbitals around the nucleus of an atom because of different forces that are present to provide stability.
Intermolecular forces can be defined as the attraction or repulsion forces that are applied to atoms and molecules when they interact with each other whether at the time of phase change or in chemical reactions. Electrostatic forces which are present between ions having different charges are not considered intermolecular forces.
These intermolecular forces are also known as Van der Waals forces when they have attractive nature. To honour a great scientist Johannes van der Waals intermolecular forces are called Van der Waals forces because he explained the concept of real gases behaviour which deviates from showing ideal behaviour under standard temperature and pressure.
As the intermolecular attraction increases, the boiling point rises. Conversely, the intermolecular forces of various substances may be evaluated by comparing their boiling temperatures. This is because the heat at the boiling point causes the intermolecular connections to break down, converting the liquid to vapour. Similarly, the melting point rises as intermolecular interactions become more intense.
Intermolecular forces are mainly of five types as discussed below:
The energy contained inside a system that is accountable for its temperature is referred to as thermal energy. The transfer of thermal energy is referred to as heat. Thermodynamics is a discipline of physics that studies how heat is transmitted across systems and how work is done in the process (see the first law of thermodynamics).
Thermal Energy can be defined as the energy which arises due to the motion of atoms and molecules of any system. The motion of particles of a system is known as thermal motion which gives rise to thermal energy and this thermal energy varies directly with the temperature.
The energy of a single particle due to motion is known as kinetic energy but the average energy of all particles gives the measure of thermal energy.
Difference between Thermal Energy and Intermolecular Forces
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