Iodine and Calcium bromide
Yes, it can, by displacing the Iodide
Net ionic: Br2 + 2I- -> 2Br- + I2
Bromine is a halogen which can be a gas or liquid depending on the temperature. At room temperature bromine is a liquid metal.
Ethanol and NaBr. The delta negative OH dissociates from Sodium creating an +Na ion. The Bromine withdraws the electron density towards itself leaving the Carbon delta +. This means that the -OH will attack the +C removing -Br.
Bromine is an example of a non-metal that is liquid at STP (Standard Temperature and Pressure).
Yes, it can, by displacing the Iodide
Net ionic: Br2 + 2I- -> 2Br- + I2
No, the chemical properties of calcium and bromine are not similar. The melting point for Calcium is 8390C, bromine's is -7.250C. Calcium's boiling point is 1484°C, bromine's is 58.750C. etc. Calcium is a silvery white, soft alkaline earth metal. Although none of the alkaline earths occur free in nature, calcium compounds are abundant. Bromine is a reddish-brown liquid, and it has a metallic luster in solid form.
That would be BROMINE
Calcium has electrons in the 4th energy level. The only liquid that has valence electrons in energy level 4 would be BROMINE.
Liquid bromine is the Real Bromine, while Bromine water is a mixture of Bromine and Water
Bromine is a halogen which can be a gas or liquid depending on the temperature. At room temperature bromine is a liquid metal.
Liquid bromine is the Real Bromine, while Bromine water is a mixture of Bromine and Water
The four elements that are present in a liquid state at normal temperature are mercury (Hg), bromine (Br), cesium (Cs), and rubidium (Rb).
Bromine is an example of a non-metal that is liquid at STP (Standard Temperature and Pressure).
Liquid bromine is a monoatomic molecule as it is a liquid
Ethanol and NaBr. The delta negative OH dissociates from Sodium creating an +Na ion. The Bromine withdraws the electron density towards itself leaving the Carbon delta +. This means that the -OH will attack the +C removing -Br.