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crystals differ from solid matter from the fact that there is definite arrangement of the various constituting particles in the three dimensiomal space i.e, in the space lattice and there exist electrostatic forces of attraction between the various particles but in case of solids there can be definite arrangement of particles but the forces of interaction are generally metallic, covalent or any other
when the particles gain energy,they move more vigorously.pressure increases but the volume remains constant.therefore,the matter changes shape as the particles use this energy to break the attractive forces between them....
the bonds between particles in a liquid are very weak
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.
electrons
the strong attractive forces that exist between them.
crystals differ from solid matter from the fact that there is definite arrangement of the various constituting particles in the three dimensiomal space i.e, in the space lattice and there exist electrostatic forces of attraction between the various particles but in case of solids there can be definite arrangement of particles but the forces of interaction are generally metallic, covalent or any other
Hajanbs
Hajanbs
There are four fundamental forces in nature, the strong, electromagnetic, the weak and gravitational. All forces between particles can be traced back to these.
At room temperature, the greatest attractive forces exist between particles of
when the particles gain energy,they move more vigorously.pressure increases but the volume remains constant.therefore,the matter changes shape as the particles use this energy to break the attractive forces between them....
It means when their are movement between the particles like vibration in a solid.
the bonds between particles in a liquid are very weak
Yes.. The forces of attraction
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.
Attractive forces pull particles together.