2NaI(aq)+Br2(l)-->2NaBr(aq)+I2(l)
Sodium iodide+bromine-->sodium bromide+iodine
The chemical reaction is:C2H2 + Br2 = CHBr=CHBr
The balanced chemical equation for the reaction between bromine and sodium thiosulfate is: 2Na2S2O3 + Br2 → 2NaBr + Na2S4O6. This reaction is often used in titrations to determine the concentration of bromine in a solution.
Aluminium metal reacts with bromine gas to form aluminium tribromide. 2Al + 3Br2 ==> 2AlBr3
Fluorine, and Chlorine can displace bromine from a compound.
The chemical equation for the reaction between toluene and bromine (Br) is C6H5CH3 + Br2 → C6H5CH2Br + HBr. This reaction is an electrophilic aromatic substitution where one of the hydrogens on the benzene ring is replaced by a bromine atom.
Sodium and bromine are chemical elements, not properties; the chemical reaction between sodium and bromine is a chemical process, not a property.
Any reaction occur between neon and bromine.
The chemical reaction is:C2H2 + Br2 = CHBr=CHBr
potassium
The balanced chemical equation for the reaction between bromine and sodium thiosulfate is: 2Na2S2O3 + Br2 → 2NaBr + Na2S4O6. This reaction is often used in titrations to determine the concentration of bromine in a solution.
Aluminium metal reacts with bromine gas to form aluminium tribromide. 2Al + 3Br2 ==> 2AlBr3
The reaction between phenol and bromine water results in the substitution of a hydrogen atom on the benzene ring with a bromine atom. This forms bromophenol as the product. The reaction is a bromination reaction and the presence of phenol's hydroxyl group activates the benzene ring towards electrophilic substitution.
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.
The reaction between silver and bromine can be represented by the chemical equation: 2Ag + Br2 → 2AgBr. This shows that two atoms of silver react with one molecule of bromine to form two molecules of silver bromide.
The chemical reaction between silver nitrate and bromine results in the formation of silver bromide and nitric acid. The balanced chemical equation for this reaction is 2AgNO3 + Br2 -> 2AgBr + 2 HNO3. Silver bromide is a yellowish solid precipitate, and nitric acid is a byproduct of the reaction.
The reaction between bromine and aqueous strontium iodide is a double displacement reaction. Bromine replaces iodide in strontium iodide, forming strontium bromide and iodine. The balanced chemical equation is: Br2 + SrI2 --> SrBr2 + I2.
The balanced chemical equation for the reaction between chlorine (Cl2) and bromine (Br2) is: Cl2 + Br2 -> 2ClBr