Most usually, heat expands a solid, making it less dense.
When heat is applied to a solid, it increases the kinetic energy of the molecules, causing them to vibrate faster and move farther apart. This disrupts the ordered arrangement of the molecules in a solid, eventually leading to a phase change into a liquid.
When molecules are linked in organized positions has solid results. When heat is absorbed by a solid the molecules vibrate faster and faster.
Heat does not affect it. It expands with coolness. It contracts with heat.
Actually, a liquid becomes a solid when it loses heat, not when it gains heat. When heat is removed, the molecules slow down and eventually arrange themselves into a solid crystalline structure.
Heat can cause a solid to melt into a liquid and then evaporate into a gas. This is due to the increase in kinetic energy of the atoms or molecules in the object, which leads to weaker intermolecular forces and a change in state.
When heat is applied to a solid, the molecules gain energy and begin to vibrate more rapidly. This increased vibration causes the molecules to have more space between them, leading to expansion of the solid. If enough heat is applied, the solid can reach its melting point and transition into a liquid state.
solid becaus there are more molecules so they spread the heat energy around quicker
specific heat
Heat creates energy, so removing heat will slow down the movement of the molecules in the system. The molecules either go from gas -> liquid -> solid, or straight from gas ->solid.
A metal is actually solid beforwe application of high heat,a metal becomes molten when the heat is high enough to enable breakage of bonds between molecules of the metal such that the molecules are free to move as in liqiud.so a molten metal becomes solid when molecules form bond again as in solid.
Of the molecules in the solid : yes. Of the mass as a whole : no.
specific heat