Chlorine bleaches the organic compound by oxidation process.
It reacts first in aqueous solution giving nascent oxygen then the nascent oxygen oxidize organic compound making it colourless.
i.e
H2O + cl2 gives 2Hcl + O (nascent oxygen)
Organic compound + O (nascent oxygen) gives colourless organic compound
No, not all bleaches are the same. There are different types of bleaches such as chlorine bleach, oxygen bleach, and color-safe bleach, each with its own specific uses and strengths. It's important to choose the appropriate bleach based on the material you are trying to clean or disinfect.
Sulfur dioxide gas can bleach the color of flowers by accelerating the breakdown of pigments responsible for coloration, such as chlorophyll. This gas, released by burning fossil fuels, can have harmful effects on plants and their photosynthesis processes.
For most kinds of bleach, it is Redox (Oxi-Reduction). Traditional bleach is mainly composed of molecules with chlorine, which is what bleaches the stains. When something is bleached it is because the chlorine is reacting with the substance in the stain. Since the chlorine ions are Cl-, they have extra electrons and donate them to the molecules of the stain: this is reduction of the molecules of the stain. The chlorine loses an electron exactly because it donated it to that molecule: this is oxidation of the chlorine ions. Hence Oxidation-Reduction, Oxi-Reduction, Redox.
HClO is stronger than HClO2 because in HClO, the oxidation state of chlorine is +1, while in HClO2, the oxidation state of chlorine is +3. The higher the oxidation state, the weaker the acid. Additionally, the electronegativity difference between chlorine and oxygen in HClO2 is greater, resulting in a weaker bond and a weaker acid overall.
Well, honey, in a compound like Cl2, each chlorine atom has an oxidation number of 0 because it's a diatomic molecule. But if you're talking about when chlorine forms a compound with something else, then its oxidation number can vary depending on the compound. So, in short, in Cl2, the oxidation number of each chlorine atom is 0. Hope that clears things up for ya, darling!
No, not all bleaches have chlorine. There are different types of bleaches such as oxygen bleach (hydrogen peroxide-based) and non-chlorine bleach (sodium perborate or sodium percarbonate-based), which do not contain chlorine.
To find the oxidation number of chlorine, consider that chlorine typically has an oxidation number of -1 in its compounds. However, in certain situations, such as when bonded with oxygen or other halogens, chlorine can have different oxidation states. It's important to follow the usual oxidation number rules and balance the charges in the compound to determine the oxidation number of chlorine.
The oxidation number of chlorine in the compound PbCl is -1. Each chlorine atom in PbCl has an oxidation number of -1, as lead has a fixed oxidation number of +2.
The formation of chlorine involves the loss of electrons by the chlorine atoms, leading to an increase in their oxidation state. Since oxidation is defined as the loss of electrons or an increase in oxidation state, the formation of chlorine is classified as oxidation.
That is a bit hard to do because chlorine does not stain, it bleaches, in other words the colour of your swim suit is a stain. when strong chlorine gets on it bleaches it away so you would probably have to re die it. definitely easier to get a new pair.
In per chloric acid HClO4, the oxidation number of chlorine is +7.
Chlorine has an oxidation number of +5 in compounds such as perchlorate (ClO4-). This is due to the electronegativity of oxygen, which causes chlorine to have a higher oxidation state in the compound.
The oxidation state of chlorine in HCl is -1. In HCl, hydrogen is assigned an oxidation state of +1 because it usually has a +1 charge when bonded to nonmetals. Since the overall charge of HCl is 0, the chlorine must have an oxidation state of -1 to balance the charge.
The oxidation number of chlorine in PbCl2 is -1. This is because the overall charge of PbCl2 is 0, and since there are two chlorine atoms in the compound, each chlorine atom must have an oxidation number of -1 to balance with the +2 oxidation number of lead (Pb).
The oxidation state of chlorine in potassium chlorate (KClO3) is +5.
-1 is most common in chlorides. However chlorine can exhibit oxidation numbers up to +7 in its compounds.
The oxidation state of chlorine in bleaching powder (CaOCl2) is +1. This is because calcium has an oxidation state of +2 and oxygen has an oxidation state of -2, so the total charge must be balanced by the chlorine with an oxidation state of +1.