Al2O3 + 3HBr -> Al2Br3 + 3H2O
Aluminium tribromide is readily hydrolysed so the hypothetical end product will react further to give a mix of AlBr(OH) compounds.
The best preparation is Al metal plus bromine.
The chemical equation for the decomposition of pure hydrobromic acid (HBr) into its elements hydrogen (H2) and bromine (Br2) can be written as: 2HBr → H2 + Br2 This balanced equation shows that two molecules of hydrobromic acid decompose to form one molecule of hydrogen gas and one molecule of bromine gas. The coefficients in front of each compound ensure that mass is conserved during the reaction.
hydrobromic acid + tin -> tin bromide + hydrogen 2HBr (aq) + Sn (s) -> SnBr2 (s) + H2 (g)
Hydrobromic acid
The salt formed when you mix aluminum oxide and nitric acid is aluminum nitrate. Aluminum oxide reacts with nitric acid to form aluminum nitrate and water.
Hydrobromic Acid
Parent Acid-HBr Parent Base-Al(OH)3 and it is and acidic salt
The equation is NH4OH + HBr -> NH4Br + H2O.
The chemical equation for the decomposition of pure hydrobromic acid (HBr) into its elements hydrogen (H2) and bromine (Br2) can be written as: 2HBr → H2 + Br2 This balanced equation shows that two molecules of hydrobromic acid decompose to form one molecule of hydrogen gas and one molecule of bromine gas. The coefficients in front of each compound ensure that mass is conserved during the reaction.
hydrobromic acid + tin -> tin bromide + hydrogen 2HBr (aq) + Sn (s) -> SnBr2 (s) + H2 (g)
NH3 (aq)+ HBr(aq) --> NH4+ (aq)+ Br- (aq)
Hydrobromic acid
The salt formed when you mix aluminum oxide and nitric acid is aluminum nitrate. Aluminum oxide reacts with nitric acid to form aluminum nitrate and water.
Hydrobromic Acid
Aluminum oxide is classified as a metal oxide. Specifically, it is known as an amphoteric oxide, meaning it can react both as an acid (when combined with a base) and as a base (when combined with an acid).
A chemical change occurs when aluminum metal is added to hydrobromic acid. This reaction produces aluminum bromide and hydrogen gas as products. The aluminum metal reacts with the hydrobromic acid to form aluminum bromide and hydrogen gas, which is a common example of a single replacement reaction.
The balanced chemical equation for the reaction between magnesium bromide (MgBr2) and hydrochloric acid (HCl) to produce hydrobromic acid (HBr) and magnesium chloride (MgCl2) is: MgBr2 + 2HCl → 2HBr + MgCl2
HBr is hydrobromic acid. Simlarly for the other halogens. HF = hydrofluoric acid HCl = hydrochloric acid HI = hydroiodic acid (Careful with the spelling of this one). HAs = hydroastinic acid ( Not characterised).