2,4,6-tribromophenol or TBP for short
Zinc plus bromine makes a simple compound its zinc bromine
The equation represents the reaction between methane (CH4) and bromine (Br2) to form methyl bromide (CH3Br) and hydrogen bromide (HBr). This reaction is a substitution reaction in which a hydrogen atom in methane is replaced by a bromine atom.
This is a single replacement reaction where chlorine (Cl2) displaces bromine in sodium bromide (NaBr) to form sodium chloride (NaCl) and bromine gas (Br2).
When bromine and chlorine are combined, they react to form a mixture of bromine monochloride (BrCl) and bromine dichloride (BrCl2). These compounds are volatile and can decompose back into their constituent elements under certain conditions.
When bromine reacts with hydrogen, it forms hydrogen bromide. The balanced chemical equation for this reaction is Br2 + H2 → 2HBr.
Without phenol, the bromine would not have a stable medium for the reaction, leading to a lack of suitable environment for the reaction to occur. Phenol acts as a catalyst in this reaction by providing a stable medium for the formation of the bromine products.
The reaction between bromocyclopentane and methoxide will result in the substitution of bromine with the methoxy group, forming methoxycyclopentane as the product. This is a nucleophilic substitution reaction.
When aluminum reacts with bromine, they form aluminum bromide, which is a white solid compound with the chemical formula AlBr3. This reaction is a redox reaction where aluminum loses electrons to bromine.
Zinc plus bromine makes a simple compound its zinc bromine
The equation represents the reaction between methane (CH4) and bromine (Br2) to form methyl bromide (CH3Br) and hydrogen bromide (HBr). This reaction is a substitution reaction in which a hydrogen atom in methane is replaced by a bromine atom.
This is a single replacement reaction where chlorine (Cl2) displaces bromine in sodium bromide (NaBr) to form sodium chloride (NaCl) and bromine gas (Br2).
The most correct product formed from the reaction of LiBr + Cl2 is LiCl + Br2. This is because lithium chloride (LiCl) and bromine (Br2) are the expected products when lithium bromide (LiBr) reacts with chlorine (Cl2) in a single displacement reaction.
When bromine and chlorine are combined, they react to form a mixture of bromine monochloride (BrCl) and bromine dichloride (BrCl2). These compounds are volatile and can decompose back into their constituent elements under certain conditions.
When bromine reacts with hydrogen, it forms hydrogen bromide. The balanced chemical equation for this reaction is Br2 + H2 → 2HBr.
The reaction of 2Br2 + 2H2O → 4HBr + O2 involves the oxidation of bromine (Br2) by water (H2O) to form hydrogen bromide (HBr) and oxygen (O2). Bromine is reduced to HBr, and oxygen gas is released as a byproduct.
The product for the reaction between PbO2 and O2 is PbO2.
Any reaction occur.