they arent attracted to each other, they are just closely packed together
In a solid, the particles are very attracted to each other. They are close together and vibrate in position but don't move past one another. In a liquid, the particles are attracted to each other but not as much as they are in a solid.
Yes, particles in a solid are attracted to each other through intermolecular forces, which help to hold the particles close together in a fixed position. This is why solids have a definite shape and volume.
solids
They get attracted to each other
Charged particles such as electrons and protons are attracted to each other as a result of the electrostatic force. Positive charges are attracted to negative charges, while particles with like charges (positive-positive, negative-negative) repel each other.
Protons and electrons are attracted to each other due to their opposite charges. Protons have a positive charge, while electrons have a negative charge, leading to an electrostatic attraction between them.
coagulation
They are attracted to each other because they love each other...hahaaa...i was just joking :) the real answer is.... solid particles are attracted to each other by them vibrating. The particles vibrate and that makes them get close together. Hope you liked my answer! :)
Particles that are neutral, such as neutrinos and photons, are the least attracted to each other since they do not have electric charge. This lack of charge means they do not experience electromagnetic forces of attraction or repulsion like charged particles do.
The particles get attracted to each other, forming a solid.
Particles in solids are tightly packed together, giving solids a defined shape and volume. The particles in a solid vibrate in place but do not move past each other easily.
Oppositely charged particles are attracted to each other due to the electromagnetic force. This attraction causes them to move towards each other and eventually form a bond or interact in some way. Positively charged particles are attracted to negatively charged particles, and vice versa.