Lattice energies of fluorid, chloride, bromide and iodide compounds are 766.5, 597.5, 537.5 and 437.03 k J/mol, respectively. Compare the oxidizing capacities of the halogens on the basis of the lattice energies of these compounds with an appropriate reason.

The potential energies of a linear harmonic oscillator at the mean position, extreme positions and an intermediate position are 0, 0.5J and 0.3 J respectively. Its total energy is given by

Transition metals combine with halogens at high temperature to form compounds called halides. On account of high activation energy , the reactions require high temperature to start, but once the the reaction is started , the heat of reaction is sufficient to maintain the continuity . Metals in higher oxidation state form flourides as it is the most electronegative element . Flourides are ionic in nature . The chlorides , bromides and iodides have ionic as well as covalent character . Halides of metals is higher oxidation states are relatively unstable and hydrolysed very easily . Aqueous solution of which compound will have pH lt 7 ?

The noble gases are chemically inert due to high ionization enthalpy, positive electron gains enthalpy and presence of completely filled orbitals. However, Xe forms a number of compounds such as XePtF_(6) XeF_(2), XeF_(4), XeF_(6) and a number of xenon oxides and oxy fluorides. Xenon fluorides react with fluoride ion acceptors such as PF_(5), AsF_(5), SbF_(3) etc. to form cationic species but with fluoride ion donors such as alkali metal fluorides they forms anionic fluoroanions. They are also hydrolysed by water but their reactivity increases with oxidation state of Xe. The number of lone pairs and bond pairs of electrons around Xe in XeOF_(4) respectively are