If the gas was hydrogen, it would have decolorized the bromine water, turning it from orange to colorless. This is a common test for the presence of unsaturated hydrocarbons like alkenes, which react with bromine to form colorless products.
If ethene is shaken with bromine water, the orange color of bromine water will be decolorized due to the addition reaction of bromine to ethene. This reaction results in the formation of a colorless compound called 1,2-dibromoethane.
When bromine water is shaken with a saturated fat, the orange color of the bromine water will fade due to the reaction between the bromine and the unsaturated fatty acids in the fat. This reaction is a test for the presence of unsaturation in a compound.
When bromine water is shaken up with propene, the bromine water will decolorize due to the addition reaction between bromine and propene. This reaction results in the formation of a colorless 1,2-dibromoethane product.
When bromine water is shaken up with propane, a reaction occurs where the bromine water decolorizes. This is because bromine water is a reddish-brown color and reacts with the unsaturated bonds in propane to form colorless products. The reaction is a test for unsaturation in organic compounds, as alkenes and alkynes can react with bromine water to form colorless compounds, while alkanes do not undergo this reaction and the color of the bromine water remains unchanged.
When glucose is treated with bromine water, there is no reaction. Glucose does not contain any double bonds or reactive functional groups that can be oxidized by bromine. As a result, the bromine water remains orange-brown, indicating that no reaction has occurred.
If ethene is shaken with bromine water, the orange color of bromine water will be decolorized due to the addition reaction of bromine to ethene. This reaction results in the formation of a colorless compound called 1,2-dibromoethane.
When bromine water is shaken with a saturated fat, the bromine water will turn colorless. This is because saturated fats do not contain double bonds to react with the bromine in a typical alkene addition reaction, which would normally turn the bromine water brown/orange.
If bromine water is shaken with an unsaturated fat, the initially orange bromine water will change color to colorless. This is because unsaturated fats can undergo addition reactions with bromine, breaking the double bonds and forming bromoalkanes.
When bromine water is shaken with a saturated fat, the orange color of the bromine water will fade due to the reaction between the bromine and the unsaturated fatty acids in the fat. This reaction is a test for the presence of unsaturation in a compound.
When bromine water is shaken up with propene, the bromine water will decolorize due to the addition reaction between bromine and propene. This reaction results in the formation of a colorless 1,2-dibromoethane product.
When bromine water is shaken up with propane, a reaction occurs where the bromine water decolorizes. This is because bromine water is a reddish-brown color and reacts with the unsaturated bonds in propane to form colorless products. The reaction is a test for unsaturation in organic compounds, as alkenes and alkynes can react with bromine water to form colorless compounds, while alkanes do not undergo this reaction and the color of the bromine water remains unchanged.
When glucose is treated with bromine water, there is no reaction. Glucose does not contain any double bonds or reactive functional groups that can be oxidized by bromine. As a result, the bromine water remains orange-brown, indicating that no reaction has occurred.
You can test if a compound reacts with bromine by adding bromine water to the compound. If the compound reacts with bromine, the characteristic reddish-brown color of the bromine water will fade as it reacts with the compound. This reaction is often used to test for the presence of unsaturated bonds in organic compounds.
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.
No. Water floats on top of bromine. Bromine's density is over three times that of water.
Bromine water is a dilute solution of bromine that is normally orange-brown in colour, but becomes colourless when shaken with an alkene. Alkenes can decolourise bromine water, while alkanes cannot.
Bromine is soluble in water.