\n\n

$(A) \\,2p_y +2p_y \\to \\pi-$ Bond formation

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$(B) \\,2p_x + 2p_x \\to \\sigma-$ Bond formation

\n\n

$(C)\\, 3d_{xy} + 3dp_{xy} \\to \\pi$ -Bond formation

\n\n

$(D)\\, 2s + 2p_y \\to \\pi-$ Bond formation

\n\n

$(E)\\, 3d_{xy} + 3d_{xy} \\to \\delta -$ Bond formation

\n\n

$(F)\\, 2p_s + 2p_s \\to \\sigma-$ Bond formation"}]}],["$","span",null,{"className":"text-theme-blue shrink-0 mt-0.5 transition-transform group-hover:translate-x-1","children":"→"}]]}] 41:["$","$L4","consider-the-change-in-oxidation-state-of-bromine-corresponding-to-different-emf-values-as_1623098",{"href":"/ask/question/consider-the-change-in-oxidation-state-of-bromine-corresponding-to-different-emf-values-as_1623098","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","div",null,{"className":"flex-1 text-sm text-theme-black dark:text-white [&_img]:max-w-full [&_img]:h-auto [&_table]:w-full [&_table]:border-collapse [&_td]:border [&_td]:border-[var(--border)] [&_td]:px-2 [&_td]:py-1 [&_th]:border [&_th]:border-[var(--border)] [&_th]:px-2 [&_th]:py-1 question-html","children":["$","$L35",null,{"html":"Consider the change in oxidation state of Bromine corresponding to different emf values as shown in the diagram below

\n\n

$\\mathrm{BrO}_{4}^{-} \\stackrel{1.82 \\mathrm{V}}{\\longrightarrow} \\mathrm{BrO}_{3}^{-} \\stackrel{1.5 \\mathrm{V}}{\\longrightarrow} \\mathrm{HBrO}$$\\stackrel{1.0652 \\mathrm{V}}{\\longrightarrow} \\mathrm{Br}_{2} \\stackrel{1.595 \\mathrm{V}}{\\longrightarrow} \\mathrm{Br}^{-}$

\n\n

Then the species undergoing disproportionation is"}]}],["$","span",null,{"className":"text-theme-blue shrink-0 mt-0.5 transition-transform group-hover:translate-x-1","children":"→"}]]}]

STD 11 - 1. Some basic concept of chemistry — NEET STD 11 Science — Question

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