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.
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.
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.
When sodium chloride and bromine water are mixed, a red-brown color will develop due to the reaction between bromine and chloride ions. This reaction forms bromide ions and an aqueous solution of sodium bromide.
Hex-1-ene reacts with aqueous bromine in an addition reaction to form 1,2-dibromohexane. During the reaction, bromine adds across the double bond of hex-1-ene to give a product with two bromine atoms on adjacent carbons.
The electronegativity difference between sodium (Na) and bromine (Br) is about 2.8. This indicates that bromine is significantly more electronegative than sodium, leading to the formation of an ionic bond when they react to form sodium bromide.
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.
Hydrogen bromide in aqueous solution is a strong acid, as it dissociates into H+ and Br- ions in water. It is a polar covalent compound due to the difference in electronegativity between hydrogen and bromine.
Bromine water will change color in the presence of certain organic compounds, such as alkenes or phenols. When bromine water is added to an aqueous solution containing these compounds, the bromine will react with the double bonds in the alkenes or the aromatic rings in phenols, resulting in a color change from orange to colorless.
An aqueous solution is one in which water is the solvent, whereas a tincture solution is one in which alcohol is the solvent. Tinctures are often used for extracting medicinal properties from herbs and plants, while aqueous solutions are more commonly used in everyday applications.
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.
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
When sodium chloride and bromine water are mixed, a red-brown color will develop due to the reaction between bromine and chloride ions. This reaction forms bromide ions and an aqueous solution of sodium bromide.
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.
The reaction between bromine and aqueous strontium iodide is a double displacement reaction. Bromine replaces iodide in strontium iodide, forming strontium bromide and iodine. The balanced chemical equation is: Br2 + SrI2 --> SrBr2 + I2.
Bromine water is a solution of bromine in water, typically used as a reagent in chemical reactions to test for unsaturation in organic compounds. Liquid bromine is the pure elemental form of bromine, which is a dark red-brown liquid at room temperature and is highly reactive.
One way to distinguish between ethene and ethyne is by performing a bromine water test. Ethene will decolorize bromine water, turning it from orange to colorless, while ethyne will not react with bromine water. This test takes advantage of the unsaturation in ethene that allows it to quickly react with bromine.
Sodium electronegativity (after Pauling): 0,93 Bromine electronegativity (after Pauling): 2,96 The difference is 2,03.