Ionic bonding is the strongest type of intermolecular force and is responsible for the high melting points of solid salts. In ionic bonding, positive and negative ions are held together by strong electrostatic forces of attraction.
The structure of a compound will dictate what intermolecular forces hold the molecules together. The stronger these forces, the higher will be the boiling point.
Because they have interlocking electrons as the different elements' electrons have been 'tangled'
Metalloids have melting points that are generally lower than those of metals but higher than those of nonmetals. Their melting points can vary depending on the specific element and its atomic structure.
it is extremely high....over 15 degrees Fahrenheit
They have low melting points and high reactivity.
positive ions have high melting points
well I dk geti don't know
Galium n Mercury
Covalent bonds generally have lower melting points compared to ionic or metallic bonds, as they are typically weaker. However, there are exceptions, such as diamond, which has a very high melting point due to its strong covalent bonds.
Ionic bonding is the strongest type of intermolecular force and is responsible for the high melting points of solid salts. In ionic bonding, positive and negative ions are held together by strong electrostatic forces of attraction.
The structure of a compound will dictate what intermolecular forces hold the molecules together. The stronger these forces, the higher will be the boiling point.
Sodium chloride is a ionic compound. Generally they have high melting points.
Because they have interlocking electrons as the different elements' electrons have been 'tangled'
It varies. Boron and thallium both have relatively high melting points while gallium and indium have very low melting points.
In general, ionic compounds have high melting points due to the strong electrostatic forces holding the ions together in a lattice structure. This results in a significant amount of energy required to break these bonds, leading to high melting points.
Metalloids have melting points that are generally lower than those of metals but higher than those of nonmetals. Their melting points can vary depending on the specific element and its atomic structure.