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The product of this reaction is gluconic acid.
If the solution is not a buffer, the HCl will react with the solution to form a product.
Yes, silver does react with bromine. Silver becomes oxidized in the presents of bromine gas, that's why silver jewelry tarnishes.
At room temperature, the halogens like bromine don't react with cyclohexane. Hence the dark brown color of the bromine water remains. When heated, the -H atoms are replaced with -Br(substitution reaction).
Yes it does.
With bromine, it gives the dibromide.
There is no useful or note-able reaction from these two elements because they don't create a dramatic reaction. Their a neutral reaction/ has no reaction.
The product of this reaction is gluconic acid.
Bromine is more reactive than iodine/bromine is higher in the activity series than iodine
If this is supposed to be an alkene test, then no, hexane will not react with bromine water to take away its color as it is an alkane and therefore contains no double bonds. But bromine water will react with sodium hydroxide; bromine water contains either HCl or H2SO4, both of which will of course react with sodium hydroxide. In addition, I believe (from some experiments like this that I've done recently) that sodium hydroxide will actually react with the free bromine in the bromine water, as evidenced by the change in color from the orange-ish color of bromine water to a pale yellow.
If the solution is not a buffer, the HCl will react with the solution to form a product.
When aluminum and bromine react, three bromine atoms combine with each aluminum atom.
Bromine does not react with air because it is not possible. It is a non reactant element.
Yes, silver does react with bromine. Silver becomes oxidized in the presents of bromine gas, that's why silver jewelry tarnishes.
its react with bromine water or idone and turns the solution colourless. not clear colourless...more scientific..haha
no
At room temperature, the halogens like bromine don't react with cyclohexane. Hence the dark brown color of the bromine water remains. When heated, the -H atoms are replaced with -Br(substitution reaction).