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The arrangement of particles in a mineral and the kind of bonds holding them together determine properties such as crystal shape, hardness, and the way the crystal breaks apart.
The atoms move faster so they escape it's liquid.they begin to separate from each other. the molecules in a solid are compact togeather. the molecules in a liquid are loose and those in a gas are separate from each which is what makes gas so light and transparent.
its about how we should be together and share the power equally .
The bonded particles are constantly vibrating and as they are given more energy (such as by heating them) they convert that energy into kinetic energy meaning that they vibrate more until they vibrate fast enough to break the forces holding them together.
Intermolecular forces are very weak in gases. They are stronger in liquids, holding the molecules very close together, but still allowing motion around each other. They are strongest in solids, holding the molecules in a tight formation with only vibration about fixed positions.
No, why should it? There is a powerful gravitational force holding it together.
Electromagnetic.
It's where the clips or sutures holding the wound together after the operation fail.
The Strong Force.
heat suckas
In any solid the particles have bonds holding the atoms together into molecules, and bonds (or forces) holding the molecules together to form the solid.
Attractive forces holding solute particles together must be broken
Trees help in preventing soil erosion by holding the soil particles together with the help of their roots. Roots are like a net holding a large area of soil particles together and thus preventing soil erosion.
Temperature and/or pressure cause the bonds holding particles together to weaken.
Those which have a "color charge": quarks and gluons. The strong nuclear force is so strong that we can't actually directly observe isolated particles with a color charge. It takes so much energy to pull them apart that new particles are created, so all we can ever actually see are color-neutral particles like mesons (a quark-antiquark pair) and baryons (three quarks, or three antiquarks) with color charges that "cancel out". The residual strong force also serves to hold nucleons (neutrons and protons, both of which are baryons) together in the atomic nucleus.
No, they are spread out. Gases are less dense than solids and liquids, which is caused by the particles being spread out.
That's because they are quite easily compressible. There are no forces holding the gas particles together. (apex)