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The melting point of sodium chloride is 801 0C. The melting point of aluminium oxide is 2 072 0C.
No. However, bromine would displace iodine in potassium iodide.
It woult be lithium.
Physically I would expect to find the same boiling and melting points, and the same density. Chemically, I would expect the same reactivity with other substances.
The solute would be iodine, and the solvent would be tincture
The boiling point of chlorine is -34.6 degrees C and the boiling point of iodine is 184 degrees C so iodine's boiling point is massively higher
The melting point of sodium chloride is 801 0C. The melting point of aluminium oxide is 2 072 0C.
No. However, bromine would displace iodine in potassium iodide.
They have a higher boiling point and lower melting point and is flamable.
The boiling point of iodine (184.3 0C) is substantially higher than the boiling point of chlorine (-34 0C). Each element occurs at standard temperature and pressure as diatomic molecules; iodine molecules have substantially more mass than chlorine molecules; dispersion forces will be higher beween iodine molecules as they have more electrons than chlorine molecules. Both these factors contribute, mass will alomost certainly be the predominant factor.
Aluminium oxide, because it has a very strong giant covalent structure that takes a lot of energy to break.
It is ionic bond
higher
Lower.
It woult be lithium.
Tungsten has the highest melting point of the elements and it is a metal.
Higher