its chemestry
When chlorine is added to sodium bromide solution, bromine is produced as one of the products through a redox reaction. The chlorine oxidizes the bromide ion to form bromine gas, while itself being reduced. This reaction is used to synthesize bromine from sodium bromide.
A reaction would occur, resulting in the production of bromine. This is because chlorine is more reactive than bromine and will displace it from the sodium bromide solution, forming sodium chloride and bromine. The bromine produced can be identified by its red-brown color and distinct odor.
Molecular chlorine (Cl2) reacts with sodium bromide (NaBr) to form molecular bromine (Br2) and sodium chloride (NaCl) in a redox reaction. The chlorine is reduced from Cl2 to Cl- and the bromine is oxidized from Br- to Br2.
The yellow color seen when sodium bromide reacts with chlorine is due to the formation of bromine, a reddish-brown liquid, which is a byproduct of the reaction. Bromine is responsible for the yellow color of the solution.
Yes, bromine reacts with sodium to form sodium bromide. This reaction is a displacement reaction where bromine replaces another element in a compound.
The reaction between aqueous chlorine and sodium bromide solution results in the displacement of bromine by chlorine, forming sodium chloride and bromine gas as products. This is a redox reaction where chlorine is reduced and bromine is oxidized.
When chlorine is added to sodium bromide solution, bromine is produced as one of the products through a redox reaction. The chlorine oxidizes the bromide ion to form bromine gas, while itself being reduced. This reaction is used to synthesize bromine from sodium bromide.
You would get Sodium Chloride and Bromine. This is because Chlorine is a more reactive group 7, (halogen), element that bromine, we know this because it is above bromine in the periodic table group, it is therefore more electronegative. When the reaction occurs, the Chlorine displaces the Bromine and the solution turns brown.
A reaction would occur, resulting in the production of bromine. This is because chlorine is more reactive than bromine and will displace it from the sodium bromide solution, forming sodium chloride and bromine. The bromine produced can be identified by its red-brown color and distinct odor.
Molecular chlorine (Cl2) reacts with sodium bromide (NaBr) to form molecular bromine (Br2) and sodium chloride (NaCl) in a redox reaction. The chlorine is reduced from Cl2 to Cl- and the bromine is oxidized from Br- to Br2.
The yellow color seen when sodium bromide reacts with chlorine is due to the formation of bromine, a reddish-brown liquid, which is a byproduct of the reaction. Bromine is responsible for the yellow color of the solution.
When aqueous bromine is added to sodium chloride, bromine will displace chlorine to form sodium bromide and release chlorine gas. This reaction is a displacement reaction where a more reactive element, bromine, displaces a less reactive element, chlorine.
Yes, bromine reacts with sodium to form sodium bromide. This reaction is a displacement reaction where bromine replaces another element in a compound.
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 sodium reacts with bromine, they form sodium bromide. This is a redox reaction where sodium loses an electron to bromine, which gains an electron to form the bromide ion. The reaction is highly exothermic and can be violent if not controlled.
Yes, bromine will react with sodium. When bromine comes in contact with sodium, they will react to form sodium bromide, a white solid compound. This reaction is a redox reaction where bromine gets reduced and sodium gets oxidized.
no reaction