The metal used for making radiation shield is

The work derived from the cell on the consumption of $1.0 \times 10^{-3} mol$ of $H _2( g )$ is used to compress $1.00 mol$ of a monoatomic ideal gas in a thermally insulted container. What is the change in the temperature (in $K$ ) of the ideal gas ?

The standard reduction potentials for the two half-cells are given below.

$\left. O _2( g )+4 H ^{+} \text {(aq. }\right)+4 e ^{-} \rightarrow 2 H _2 O (\ell), E ^{\circ}=1.23 V,$

$\left.2 H ^{+} \text {(aq. }\right)+2 e ^{-} \rightarrow H _2( g ), E ^{\circ}=0.00 V.$

Use $F =96500 C mol ^{-1}, R =8.314 J mol ^{-1} K ^{-1}$

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The principal reason that the melting point of $NaF$ is much higher then that of $RbBr$ is that

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Zinc reacts with hydrochloric acid to give hydrogen and zinc chloride. The volume of hydrogen gas produced at $STP$ from the reaction of $11.5\,g$ of zinc with excess $HCl$ is $..........L$ (Nearest integer) (Given : Molar mass of $Zn$ is $65.4\,g\,mol ^{-1}$ and Molar volume of $H _2$ at $STP =22.7\,L$ )

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The predominant product formed, when $3-$ methyl-$2$ -pentene reacts with $HOCl$, is

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An organic compound is subjected to chlorination to get compound A using $5.0\, \mathrm{~g}$ of chlorine. When $0.5\, \mathrm{~g}$ of compound $\mathrm{A}$ is reacted with $\mathrm{AgNO}_{3}$ [Carius Method], the percentage of chlorine in compound $A$ is $.....$ when it forms $0.3849$ $g$ of $\mathrm{AgCl}$. (Round off to the Nearest Integer)