Electrons are shared between the chlorine atoms and the bromine atoms.
Red coloured bromine is formed. Bromides are displaced by chlorine.
Bromine Water disappear thus forming Gluconic Acid
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Bromine reacts with the double / triple bonds giving typically a colourless compound. the bromine water therefore fades as the bromine reacts.
Chlorine
Red coloured bromine is formed. Bromides are displaced by chlorine.
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.
Carbon tetrachloride.
Bromine Water disappear thus forming Gluconic Acid
Bromine is more selective than chlorine because bromine reacts more readily with organic compounds, making it more effective at targeting specific types of organic molecules. This selectivity is due to bromine's larger atomic size compared to chlorine, which allows it to form stronger and more specific bonds with certain organic compounds.
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Chlorine + Magnesium Bromide ----> Magnesium Chloride + Bromine
Bromine reacts with the double / triple bonds giving typically a colourless compound. the bromine water therefore fades as the bromine reacts.
Chlorine
Bromine's atomic radii is larger than that of chlorine.
Bromine has a larger radius (not raduis) than chlorine.
Chlorine is a stronger oxidizing agent than bromine.