because they have strong force of attractions
No, materials do not melt at the same temperature. An example would be cooking oils. Some burn at lower temperatures than others.
The temperature at which intermolecular forces push the molecules apart
The great majority of solids have a definite melting point.Some materials as plastics, glass, silicates have a transition temperature from solid to liquid.
Yes they do.
Yes, it changes into a liquid.But some solids don't melt like brick.Well it could melt I guess,but only in very extreme tempetures.
Solids change their shapes in many ways. Solids will melt if they are in hot temperatures, and this changes their shape.
Solids change their shapes in many ways. Solids will melt if they are in hot temperatures, and this changes their shape.
it all depends on the temperature. ice melts faster at higher temperatures
Partial melt. Some crystals will melt at lower temperatures then others, so during a given temperature range, only a part of the crystals in a rock will be molten.
Solids have varying temperatures at which they melt into a liquid. Experiment with chocolate, wax or butter, record, which has the lowest and highest temperature when it melts.
Yes, people melt at extreme temperatures
No, materials do not melt at the same temperature. An example would be cooking oils. Some burn at lower temperatures than others.
There is no such element as this is physically possible. The liquid state is only achieved when the temperature has reached the melting point of the material. And, the melting point is, by definition, at a higher temperature than the freezing point. However, there are substances that are liquids in cold temperatures (many oils) as well as substances that are solids in warm temperatures (most metals); but this does not mean that the oils do not freeze and the metals do not melt.
fire/heat makes matter expand the melt away
Yes, though they melt at different temperatures.
well it does
Usually this is due to differences in the blend of waxes used. Some waxes have much lower melting temperatures than others.