The chemical reaction is:
C2H2 + Br2 = CHBr=CHBr
The balanced equation for the reaction between bromine and lithium chloride is: 2LiCl + Br2 -> 2LiBr + Cl2.
When acetylene is bubbled through bromine water, the unsaturated acetylene undergoes a reaction with bromine (a halogen) to form a dihalogenated compound, bromoethylene. This reaction is an addition reaction where two bromine atoms add across the carbon-carbon triple bond in acetylene to form the product. The bromine water, which is originally orange-brown in color, will decolorize as the reaction proceeds.
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.
The balanced equation for the combustion of bromine is 2Br₂ + O₂ → 2Br₂O. This equation shows that two molecules of bromine (Br₂) combine with one molecule of oxygen (O₂) to form two molecules of bromine oxide (Br₂O).
The chemical formula for aluminum metal is Al. The chemical formula for diatomic bromine is Br2. The balanced chemical equation for the reaction between aluminum and diatomic bromine to form aluminum bromide is: 2Al + 3Br2 -> 2AlBr3.
The chemical equation is:C2H2 + 2 Br2 = C2Br2H4
The balanced chemical equation for the reaction between chlorine (Cl2) and bromine (Br2) is: Cl2 + Br2 -> 2ClBr
The chemical equation for the reaction of acetylene (C2H2) with two molecules of Br2 (bromine) is: C2H2 + 2Br2 → C2H2Br4
Any reaction occur between neon and bromine.
The balanced equation for the reaction between bromine and lithium chloride is: 2LiCl + Br2 -> 2LiBr + Cl2.
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.
When acetylene is bubbled through bromine water, the unsaturated acetylene undergoes a reaction with bromine (a halogen) to form a dihalogenated compound, bromoethylene. This reaction is an addition reaction where two bromine atoms add across the carbon-carbon triple bond in acetylene to form the product. The bromine water, which is originally orange-brown in color, will decolorize as the reaction proceeds.
Br2 + (2e)- --> 2 Br- 2I- --> I2 + (2e)-
potassium
CH (triple bond) CH + Br2 -> BrC (triple bond) CBr
Br2 + 3NaHSO3 = 2NaBr + NaHSO4 + H2O + 2SO2
The reaction between cyclohexene and bromine in dichloromethane results in the addition of bromine across the double bond in cyclohexene to form 1,2-dibromocyclohexane. The balanced chemical equation can be represented as: C6H10 + Br2 → C6H10Br2.