The melting point is lowered.
The freezing point is lowered; the decrease is proportional to the content of salt.
That happens because any heat that is added to that melting material will be used to cause further melting, until there is nothing left to melt, at which point the added heat can raise the temperature. A solid melts at its melting point; it does not get hotter than the melting point without melting, that's why it is the melting point.
Increasing the temperature up to the melting point.
Adding impurities lowers the melting point and raises the boiling point.
Yes, impurities have important effects on the melting and boiling point of materials.
The freezing point is lowered; the decrease is proportional to the content of salt.
The melting point of ice decreases when salt is added.
They have an equal value and are synonyms.
That happens because any heat that is added to that melting material will be used to cause further melting, until there is nothing left to melt, at which point the added heat can raise the temperature. A solid melts at its melting point; it does not get hotter than the melting point without melting, that's why it is the melting point.
Increasing the temperature up to the melting point.
Adding impurities lowers the melting point and raises the boiling point.
There is no common melting point, it will vary a lot with the type of metal.
Helium cannot exist as solid and hence does not have any melting point.
By definition, they are the same!
Yes, impurities have important effects on the melting and boiling point of materials.
There are a number of things that could happen to neon while it is at its melting point. It could melt.
Fisher-Johns apparatus is mainly used to measure the boiling point