WebAug 23, 2015 · Abstract. Although it is generally accepted that fluorine is the strongest oxidant among the halogens and so among all of the elements, it has not been explained in the literature why this is the case. In this paper, we ask whether this “common knowledge” is indeed true; we also explore various means of determining the oxidation strength of ... WebConcentrated sulphuric acid isn't a strong enough oxidising agent to oxidise fluoride or chloride ions. In those cases, all you get produced are the steamy fumes of the hydrogen halide - hydrogen fluoride or hydrogen chloride. ... Note: You will find the oxidising ability of the halogens explained in detail by following this link.
Oxidizing agent - Wikipedia
WebExpert Answer. 100% (10 ratings) Transcribed image text: In their elemental forms, the halogens are O strong oxidizing agents. strong reducing agents. strong acids. … WebHalogens are strong oxidising agents so this means they can take electrons from another species. They can take electrons from halides which are I-, Br-, Cl- (ions). As you go down the groups they are less reactive as it’s easier to transfer electrons. Halogens that are the most reactive are the most dense as well as they have fewer shells, so ... mazos slay the spire
Why are halogens strong oxidising agents? - Toppr
WebChlorine, bromine and iodine. In each case, a halogen higher in the Group can oxidise the ions of one lower down. For example, chlorine can oxidise the bromide ions (in, for example, potassium bromide solution) to bromine: Cl 2 + 2Br - 2Cl - + Br 2. The bromine appears as an orange solution. As you have seen above, chlorine can also oxidise ... WebThus, halogens need only one more electron to complete their octet and to attain the stable noble gas configuration. Also, halogens are highly electronegative with low dissociation energies and high negative electron gain enthalpies. Therefore, they have a high tendency to gain an electron. Hence, they act as strong oxidizing agents. WebThe halogens can act as oxidising agents by gaining electrons to form halide ions. X 2 + 2e-→ 2X-The oxidising ability decreases down the group with fluorine being the strongest oxidising agent. In simple terms the formation of X-occurs in two steps. A strong oxidising agent will readily form X-. It will therefore, have a low bond energy and ... mazos magic the gathering arena