Greater reactivity of f2 is due to
WebReactivity (chemistry) In chemistry, reactivity is the impulse for which a chemical substance undergoes a chemical reaction, either by itself or with other materials, with an overall release of energy . theories to predict and to account for these processes. The chemical reactivity of a single substance (reactant) covers its behavior in which it: WebMar 12, 2016 · Hence bond energy decreases in the order Cl2 > Br2 > F2 > I2. Due to small size, high electron density, greater inter electronic repulsion (lower F-F bond energy) F2 is highly reactive among halogens.
Greater reactivity of f2 is due to
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WebAug 21, 2024 · For F 2 2) is less than for Cl 2 but since the energy needed to break the F-F bond is also less and the hydration more, the total energy drop is much greater. In spite of their lower atomization energies, Br 2 and I 2 are weaker oxidizing agents than Cl 2 and this is due to their smaller Δ EA H 1 and smaller Δ hyd H°. WebAs a result, the bond length of halogen X − X increases down the group. So, less energy is required to break the bond (bond dissociation enthalpy decreases). So, as per this …
WebMay 22, 2015 · In the F X 2 molecule, there are to fluorine atoms. The fluoride ion is a result of a fluorine atom completely gaining control over an electron, which is usually … WebApr 2, 2024 · The chlorine is the chemical element with atomic number 17. The chlorine is denoted by the symbol Cl. The chlorine forms a diatomic chemical compound C l 2. The …
WebDec 5, 2016 · See the explanation. Ionization energy is the energy required to remove a valence electron from an atom or ion in its gaseous state, causing it to gain a positive charge as the electron is removed. "X" + "energy"rarr"X"^(+) + "e"^-" Fluorine is in period two of the periodic table, meaning that it contains electrons in only the first two energy levels at … WebNov 16, 2024 · The bond dissociation energy of F2 is less than Cl2 because fluorine has a high electronegativity, resulting in F−F repelling each other and having lesser bond dissociation enthalpy than Cl2 since Cl is less electronegative than F. Another way of saying this is that F2 is a smaller molecule than Cl2.
WebAssertion F 2 has high reactivity. Reason F−F bond has low bond dissociation enthalpy. F 2 has high reactivity. A Both Assertion and Reason are correct and Reason is the correct explanation for Assertion B Both Assertion and Reason are correct but Reason is not the correct explanation for Assertion C Assertion is correct but Reason is incorrect D
WebAug 15, 2024 · Because fluorine ( F 2) is so electronegative, it can displace oxygen gas from water. The products of this reaction include oxygen gas and hydrogen fluoride. The … in case of dispute 意味WebWe have just seen that the bonding molecular orbital is lower energy and promotes the formation of a covalent bond, while the antibonding molecular orbital is higher energy with a node of zero electron density between the atoms … incan superior shipWebAnswer (1 of 3): The F atom is a free radical (has an unpaired electron) so it is a very reactive species like all free radicals. F2 is covalently single bonded with no unpaired electrons so it is clearly less reactive than a single F atom radical. However, F2 has the lowest bond energy of the ... in case of divorceWebI was just reading about p Block elements from two different books. Both books say that $\ce{SF6}$ is extremely stable in 16th group due to steric reasons but my question is why is it more stable than $\ce{SeF6}$ and $\ce{TeF6}$ when $\ce{S}$ is more electronegative and smaller than $\ce{Te}$ and $\ce{Se}$ and so it would bring the electrons in bonding … incan superfoodWebHitesh Kumar 5 years, 1 month ago. This is because of the small size of fluorine atoms, the F-F bond distance is very small due to which there is appreciable inter-electronic … incan soldierWebView Available Hint (s) The small NO and F2 molecules have little steric hindrance; therefore random collisions occur more frequently. The electron-deficient NO molecule is attracted to the electron-rich F2 molecule, so the driving force for the formation of the transition state is greater than simple random collisions. in case of discrepancyWeb>>The greater reactivity of ... Question. The greater reactivity of F 2 is due to : incan tax \\u0026 accounting inc