molecular solid
Yes. A solid can change shape. The process is called melting. Each solid has a melting point. Ice has a melting point of 0 degrees Celcius. You should learn this when you are in Grade 6 or 7. But let me tell you 1 thing, some solids like wood do not melt, wood burns when the temperature is too hot. The only type of solids that can melt are the type of solids that have the properties of changing into a liquid. You can search up videos in Youtube for more information about solids. You can type in "Ice melting", that would be a simple thing to start with.add. And solids may have their shape altered by applying an external force. That is how a metal can is formed, or a railway iron, or a copper wire, or a metal spoon. Other solids such as wood and plastic may be similarly deformed.
These are solids with covalent bonds.
Compounds bonded by covalent bonds do not necessarily have low melting points. Some have whereas some don't have.Some polymers and hydrocarbons have very high melting points. But it can be said that they don't have melting points as high as ionic compounds. It is so because ionic bonds are stronger than the covalent bonds.
The factor that has the greatest effect on the melting point of a crystalline solid is the type of bonding among the particles. Heat breaks the bonds that hold the particles together.
Metals have a boiling point.
Type your answer here... Nonpolar molecules
Some common metals and their approximate melting points are: iron (1538°C), copper (1084°C), aluminum (660°C), and lead (327°C). These melting points can vary slightly depending on the specific alloy or impurities present in the metal.
yes of course melting point depends on atmospheric pressure along with type of bonding between the molecule.
rubber
you type "melting point of ________[substance]" into google.
Ionic bonds
The change in a state of matter from a solid to a liquid is called melting. This process occurs when a solid substance absorbs enough heat to break the bonds holding its particles together, allowing them to move and flow more freely. The temperature at which this transition occurs is known as the melting point.