Baby powder, or talcum powder, is starchy in composition. When combined with iodine, the powder reaction will be a change in color to a dark blue, purple, or blackish hue depending on the amount used.
When Alka-Seltzer and iodine are mixed, the Alka-Seltzer tablet will react with the iodine, causing it to fizz and release carbon dioxide gas. This reaction does not have any significant chemical significance beyond the physical reaction of gas formation.
When sugar and iodine are mixed together, the iodine will not react with the sugar. The iodine may simply dissolve into the sugar, giving it a purplish color. This reaction is purely physical and does not involve a chemical change.
Yes, sugar does not turn blue when mixed with iodine. Iodine reacts with starch, turning it into a blue-black color. Sugar does not contain starch, so it will not have a reaction with iodine in this way.
When calcium sulfate (CaSO4) is mixed with iodine, it forms a yellowish-brown color due to the reaction between the calcium sulfate and iodine.
When iodine is mixed with decane, it typically forms a purple or violet color. This color change is due to the reaction between iodine and the carbon-carbon double bonds in decane, resulting in the formation of an adduct that absorbs light in the visible spectrum, giving it a purple color.
When iodine and borax are mixed, they do not react chemically. Both substances will remain as separate entities in the mixture. Iodine is a purple-black solid, while borax is a white crystalline powder.
When citric acid and iodine are mixed, they react to form iodine citrate. This reaction results in the formation of a pale yellow precipitate.
True.
When sugar and iodine are mixed, the iodine will turn purple or black due to a reaction with the starch that is naturally present in sugar. This color change is commonly used as a simple test for the presence of starch.
When iodine is mixed with citric acid, the iodine can be dissolved or react with the citric acid to form iodine citrate. This reaction can alter the properties of iodine, such as its solubility, color, or chemical behavior.
When Alka-Seltzer and iodine are mixed, the Alka-Seltzer tablet will react with the iodine, causing it to fizz and release carbon dioxide gas. This reaction does not have any significant chemical significance beyond the physical reaction of gas formation.
When iodine is mixed with citric acid, the reaction is likely to be acidic due to the citric acid. The iodine may react with the citric acid to form iodine citrate and release iodine gas. This reaction could be exothermic, depending on the concentrations and conditions.
This is a physical process.
When iodine is mixed with cyclooctene, a color change from brown/red to colorless may occur, indicating that the iodine has reacted with the cyclooctene to form a diiodide product. This reaction involves addition of the iodine molecule across the double bond of cyclooctene.
When iodine is mixed with flour, it can form a complex chemical reaction resulting in a bluish-black color. This reaction occurs due to the starch content in flour interacting with iodine. This color change can be used as an indicator to detect the presence of starch in a given substance.
When iodine and magnesium are mixed, a chemical reaction occurs in which magnesium reacts with iodine to form magnesium iodide (MgI₂). This reaction typically involves the magnesium metal oxidizing while iodine is reduced, resulting in the formation of a white or yellowish solid compound. The process is exothermic, releasing heat. The reaction highlights the strong affinity of magnesium for halogens like iodine.
No - there would be a reaction though if Chlorine and Potassium Iodide were mixed