increases as the distance between them decreases. This force is directly proportional to the product of the charges on the particles and inversely proportional to the square of the distance between them.
Coulomb's law is used to calculate the electrostatic force between two charged particles. It states that the force is directly proportional to the product of the charges and inversely proportional to the square of the distance between them.
The force that pulls particles together is called the electromagnetic force. This force is responsible for the attraction between particles with opposite electric charges and the repulsion between particles with like charges.
The spaces between particles in a solid are very close together, forming a closely packed arrangement. In a liquid, the particles are closer together than in a gas but still have some space between them. In a gas, the particles are much farther apart and have large spaces between them.
by applying pressure the particles of matter come and the intermolecular space between them shorten and they change their state from gas to liquid and the intermolecular space between the particles of liquid is more than that of gas.
The bonds between particles are strongest in the solid state of matter. In solids, particles are tightly packed together, leading to strong forces of attraction between them which hold the structure in place.
Coulomb's law is used to calculate the electrostatic force between two charged particles. It states that the force is directly proportional to the product of the charges and inversely proportional to the square of the distance between them.
The force that pulls particles together is called the electromagnetic force. This force is responsible for the attraction between particles with opposite electric charges and the repulsion between particles with like charges.
the particles will move closer together
Electromagnetic forces exist between particles, such as protons and electrons, which hold atoms together. Strong nuclear forces also act between particles within the nucleus of an atom, binding protons and neutrons together.
electrons
The spaces between particles in a solid are very close together, forming a closely packed arrangement. In a liquid, the particles are closer together than in a gas but still have some space between them. In a gas, the particles are much farther apart and have large spaces between them.
The particles in the solid (solute) break apart and form links with the particles in the liquid (solvent). There are strong forces of attraction between the molecules and particles inside the solute. These forces keep the particles together and make the solute a solid because they attract the solute particles tightly together. There are also strong forces of attraction between the molecules and particles inside the solvent. These forces keep the particles together and make the solvent a liquid because they attract the solvent particles slightly together. There is also an attractive force between the solute and solvent particles. To break these forces and from a bond between the solute and solvent particles energy is needed. This energy is gained from heat (the process of dissolving is speeded up through heat.) In conclusion, the particles in a solute break apart of their attractive forces and form bonds with the solvent particles through the attraction between the solute and solvent particles and through the energy gained by heat.
The attractive force between like particles is called cohesion. It is the force that holds similar particles together within a substance.
by applying pressure the particles of matter come and the intermolecular space between them shorten and they change their state from gas to liquid and the intermolecular space between the particles of liquid is more than that of gas.
Particles in the air are closer together in solid objects and liquids, where the particles are tightly packed. In these states, particles are closely bonded and have less space between them compared to the surrounding air.
The bonds between particles are strongest in the solid state of matter. In solids, particles are tightly packed together, leading to strong forces of attraction between them which hold the structure in place.
yes