Bromine has only 2 stable isotopes(isotopes which do not undergo radioactive decay), whereas Mercury has 7 stable isotopes.
Mercury is a heavy weight metal, whereas bromine isn't exactly jusy as heavy.
Mercury's atomic weight is200.59, which is heavier than bromines atomic weight of 79.904.
Bromine has a strong bleachong action and smells of chlorine whileis obtained mainly from cinnabar, and is toxic to breath or ingest.
While bromine does react quite fairly to most acids, mercury does not react with most of the acids known and tested.
both of these metals belong to two entirely different groups.
One similarity that these two fluid metals share is that they are liquid metals.
Bromine liquid is the element bromine (Br) in liquid form. Nothing else is there.
Bromine Aqueous solution is the element bromine dissolved in a solvent.
One has water in it (bromine water) and the other is just pure bromine.
Bromine is pure liquid bromine
Bromine Water is bromine mixed with water
A Bromide ion is a Bromine Atom with a -1 charge.
Chlorine is a gas, bromine is a liquid and iodine is a solid.
Chlorine displaces bromine as it is more reactive, and it creates sodium chloride aqueous and bromine aqueous.
There will be no colour change between the two, as chlorine is more electronegative than bromine and will maintain its negative charge, meaning that the bromine will not react and the orange colour persists.
Sodium electronegativity (after Pauling): 0,93 Bromine electronegativity (after Pauling): 2,96 The difference is 2,03.
It is an addition reaction which will then give us bromohydrin
the difference between the electronegativity values of sodium and bromine is 1.9 , which is relatively high in general , high differences suggest ionic bonds.
Chlorine displaces bromine as it is more reactive, and it creates sodium chloride aqueous and bromine aqueous.
Aqueous titration: the ion to be titrated is in an aqueous solution Nonaqueous titration: the ion to be titrated is in an nonaqueous solution
The bromine test (discoloration) is valid for compounds with double or triple bonds between carbon atoms and for phenols. This is a simple and common experiment.
The main difference between an aqueous solution and a tincture solution lies in their solvent base. Aqueous solutions are created using water as the solvent, while tincture solutions are made by dissolving substances in alcohol or a combination of alcohol and water. Aqueous solutions are commonly used for water-soluble substances, while tinctures are frequently employed for extracting and preserving the active components of plant materials. Additionally, tinctures tend to have a longer shelf life due to the preservative properties of alcohol. However, it is essential to note that the choice between an aqueous or tincture solution depends on the specific requirements of the substance being used and its intended application.
the difference between a solution and a non solution is that a solution is a substance in which all the particals in it have dissolved and mixed completely. a non solution is a substance that still has particals that have not been mixed completely.
A solution with solvent as water is known as aqueous solution while a sloution with solvent not as a water is called non-aqueous solution
A solution with solvent as water is known as aqueous solution while a sloution with solvent not as a water is called non-aqueous solution. Arhum Adnan
Liquid bromine is the Real Bromine, while Bromine water is a mixture of Bromine and Water
Liquid bromine is the Real Bromine, while Bromine water is a mixture of Bromine and Water
There will be no colour change between the two, as chlorine is more electronegative than bromine and will maintain its negative charge, meaning that the bromine will not react and the orange colour persists.
Sodium electronegativity (after Pauling): 0,93 Bromine electronegativity (after Pauling): 2,96 The difference is 2,03.
Bromine water can test the difference between alkanes and alkenes because the bromine water turns colourless for the alkenes but doesnt change for the alkanes.