The melting point of SeF6 is -34,6 oC, the boiling point is - 46,6 oC.
Selenium has a melting point (of gray selenium) 217°C and boiling point (gray) 684.9°C.
Melting point (of gray selenium) 217°C Boiling point (gray) 684.9°C
Electrovalent compounds have high melting and boiling points as they are held by very strong electrostatic force of attraction making the compound stable and therefore they require a lot of energy to break.
compounds are identified because each compound have characteristically different melting and boiling points.
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.
Selenium has a melting point (of gray selenium) 217°C and boiling point (gray) 684.9°C.
Melting point (of gray selenium) 217°C Boiling point (gray) 684.9°C
Melting and boiling points are different for each compound or element.
Thermally unstable compounds are decomposed before melting or boiling.
Electrovalent compounds have high melting and boiling points as they are held by very strong electrostatic force of attraction making the compound stable and therefore they require a lot of energy to break.
Yes, elements have fixed melting points; but some exceptions are with the elements having allotropes (as carbon, sulfur, phosphorous, etc.) - each allotrope has a specific melting point.
i really dont know
compounds are identified because each compound have characteristically different melting and boiling points.
They have high melting and boiling points and can conduct electricity when they are molten or a liquid.
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Ionic compound with high melting and boiling point. This is good example of a salt.
no, they are two different things. molecular compounds have a lower boiling and melting point relative to ionic.