About 4,200 C
high boiling point low melting point
Diamond does not have a boiling point because it sublimes directly from solid to gas at extremely high temperatures. Graphite also does not have a boiling point, as it too sublimes at high temperatures.
I suppose that you think to beryllium.
Magnetite does not have a specific boiling point as it decomposes before reaching its melting or boiling point. Magnetite decomposes into iron(II) oxide and eventually into iron oxide and oxygen at high temperatures.
Which metal needs to be specified. Look in a Chemistry book or reference book. All metals have their own melting and boiling points - that's one of the ways we identify which metal the item is made of.
high boiling point low melting point
hydrogen bonding increases the intermolecular attractions and therefore increases the boiling point and melting point.
Tetraoxidre is H4O. Its Melting Point is 995.45 Degrees Fahrenheit and its boiling point is an extremly high 14,290.15 Degrees Fahrenheit.
Brittleness high melting and boiling point are properties of ionic compounds within structures. This is taught in biology.
It is stable over a wide range of temperatures. Graphiteis a highly refractory material with a high melting point(3650°C.)in some experiments-it is turned out to be 4800 К ± 200 К.
Diamond does not have a boiling point because it sublimes directly from solid to gas at extremely high temperatures. Graphite also does not have a boiling point, as it too sublimes at high temperatures.
The melting point of tantalum is 3 017 0C.The boiling point of tantalum is 5 458 0C (this is a very high boiling point).
Why? Because just about every substance that can be solid at all has a melting point, so it is not particularly surprising that graphite should have one.Note that some substances will change from solid directly to gas. That is called sublimation.
Water has a high melting point and boiling point because of hydrogen bonds
Chlorine has a low melting point of -100.98°C and a low boiling point of -34.6°C.
Boiling point decrease at high altitude.
At high pressure and an inert atmosphere.