37:["$","div",null,{"className":"flex flex-col gap-4 pt-2","children":[["$","h2",null,{"className":"text-xl font-bold text-theme-black dark:text-white","children":"Similar questions"}],["$","div",null,{"className":"flex flex-col gap-3","children":[["$","$L4","a-compound-whose-aqueous-solution-will-have-the-highest-ph_2784576",{"href":"/ask/question/a-compound-whose-aqueous-solution-will-have-the-highest-ph_2784576","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","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":["$","$L33",null,{"html":"A compound whose aqueous solution will have the highest $pH$"}]}],["$","span",null,{"className":"text-theme-blue shrink-0 mt-0.5 transition-transform group-hover:translate-x-1","children":"→"}]]}],["$","$L4","the-equilibrium-constant-for-the-reaction-h2g-i2g-rightleftharpoons-2hig-is-32-at-a-given-_2783798",{"href":"/ask/question/the-equilibrium-constant-for-the-reaction-h2g-i2g-rightleftharpoons-2hig-is-32-at-a-given-_2783798","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","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":["$","$L33",null,{"html":"The equilibrium constant for the reaction

\n\n

${H_2}(g) + {I_2}(g) \\rightleftharpoons 2HI(g)$

\n\n

is $32$ at a given temperature. The equilibrium concentrations of $I_2$ and $HI$ are $0.5 \\times 10^{-3}\\, M$ and $8 \\times 10^{-3}\\, M$ respectively. the equilibrium concentration of $H_2$ is"}]}],["$","span",null,{"className":"text-theme-blue shrink-0 mt-0.5 transition-transform group-hover:translate-x-1","children":"→"}]]}],["$","$L4","the-electrons-identified-by-quantum-numbers-n-and-l-a-n4l1-b-n4l0-c-n3l2-d-n3l1-can-be-pla_2779848",{"href":"/ask/question/the-electrons-identified-by-quantum-numbers-n-and-l-a-n4l1-b-n4l0-c-n3l2-d-n3l1-can-be-pla_2779848","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","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":["$","$L33",null,{"html":"The electrons identified by quantum numbers $n$ and $l$ :

\n\n

$(A)\\, n=4,l=1$ $(B)\\, n=4,l=0$

\n\n

$(C) \\,n=3,l=2$ $(D)\\, n=3,l=1$

\n\n

can be placed in order of increasing energy as :"}]}],["$","span",null,{"className":"text-theme-blue shrink-0 mt-0.5 transition-transform group-hover:translate-x-1","children":"→"}]]}],["$","$L4","reactant-a-is_2789243",{"href":"/ask/question/reactant-a-is_2789243","className":"card card-hover px-5 py-4 flex items-start justify-between gap-4 group","children":[["$","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":"$L38"}],"$L39"]}],"$L3a","$L3b","$L3c","$L3d","$L3e","$L3f"]}]]}]

9. Hydricarbon — Chemistry STD 11 Science — Question

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