Yes if you put it on a high temperature.
When ice melts, the particles do not change into a liquid; rather, the solid ice transforms into liquid water. The molecules in the ice gain enough energy to break their fixed positions and move more freely as a liquid.
Matter melts when its internal energy overcomes the intermolecular forces holding its particles together. This increase in energy breaks the bonds between particles, allowing them to move more freely and transition from a solid to a liquid state.
When ice melts, the solid water particles gain energy, causing them to break free from their rigid structure and transition into a liquid state. This extra energy is absorbed by the particles as heat, allowing them to move more freely and flow like a liquid.
yes as it is plastic
When an object gets hotter, the particles within the object gain more energy and start to move faster. This increased movement causes the particles to spread apart, leading to expansion of the object. If the object is a solid, the increased energy may be enough to break the bonds holding the particles together, causing the object to melt and change state.
J mesons are subatomic particles that do not experience a melting phase transition like larger particles or materials. As such, they do not require energy to melt as they do not solidify.
When a solid is heated its particles melts and change into liquid
its chngein 2 a liquid
The particles are moving away from one another during melting.
cuz if u heat it particles start to melt.
The particles in a horseshoe will separate when it is put into fire. A horseshoe will not melt, though. It will get hot and become pliable.
This physical change is called melting.
Saturn is very far from the sun. At that distance the sun's rays do not provide enough heat to melt ice.
Scientifically speaking, the ice is probably melting because of the particles in the air/water/wherever the ice is. The particles in the air speed up the particles in the ice causing it to melt.
The particles are still there when ice melts, but they start to drift apart. There are still just as many particles, but they just have more room in between them.
Yes, powders can melt if their melting point is reached. Melting occurs when a solid substance is heated to a temperature at which its particles can move freely, changing from a solid to a liquid state.
When ice melts, the particles do not change into a liquid; rather, the solid ice transforms into liquid water. The molecules in the ice gain enough energy to break their fixed positions and move more freely as a liquid.