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It forms magnesium bromide:Mg + Br2 --> MgBr2I think this is a quite vigorous reaction
word equation : magnesium + water --> magnesium hydroxide + hydrogen chemical equation : Mg + 2H2O → Mg(OH)2 + H2
No, the equation is not correct. The correct equation for the reaction between magnesium hydroxide and heat is: Magnesium hydroxide decomposes to form magnesium oxide and water.
Calcium react with bromine forming calcium bromide.
All that happens if you crush up a bromine and a chlorine tablet and mix them in water is it becomes a stronger substance to kill bacteria, however i would not recommend getting in that water it can damage your skin.
The word equation for potassium bromide and iodine water is: potassium bromide + iodine water -> potassium iodide + bromine.
The word equation for the reaction is: Solid magnesium hydroxide + hydrobromic acid → aqueous magnesium bromide + water.
The compound MgBr2 6H2O is called magnesium bromide hexahydrate. It consists of magnesium bromide with six water molecules bound to it.
The subscript "2" in MgBr2 indicates that magnesium (Mg) forms 2 ions, while bromine (Br) forms 1 ion. This results in the need for two bromine ions to balance the charge of one magnesium ion, hence the formation of MgBr2.
When methane reacts with bromine water, the bromine water turns from orange to colorless. This is because bromine water is decolorized as the bromine adds across the carbon-carbon bond in methane, forming a bromoalkane.
Magnesium bromide is a salt, not a base. It is formed by the reaction between magnesium oxide (a base) and hydrobromic acid to produce magnesium bromide and water.
Yes, magnesium bromide (MgBr2) is soluble in water. It forms a colorless to pale-yellow solution when dissolved in water.
To remove bromine in bromobenzene, you can use a reducing agent such as zinc or tin with hydrochloric acid. The reducing agent will react with the bromine, converting it into a bromide ion which can then be easily separated from the organic compound. This process is known as reductive debromination and is commonly used in organic chemistry to remove halogens from aromatic compounds.
Unsaturated hydrocarbons such as alkenes and alkynes will decolourize bromine water.
There is so such thing as MgBrO32. There is, however, MgO, (magnesia) MgO2, (magnesium peroxide) and BrO2. (bromine dioxide) (I'm pretty sure this should be rendered as Mg(BrO3)2. If so, the name would be magnesium bromate, though if it has any "common name" I'm not aware of what it might be.)
It forms magnesium bromide:Mg + Br2 --> MgBr2I think this is a quite vigorous reaction
When bromine and sodium combine, they react to form sodium bromide. This is a salt that is water soluble and a common source of bromine in various chemical applications. The reaction between bromine and sodium is a redox reaction where sodium loses an electron to bromine.