[" 3.If "100" mole of "H(2)O(2)" decompo...

[" 3.If "100" mole of "H_(2)O_(2)" decomposes at "1" bar and "300K" ,the "],[" work done (k.D) by one mole of "O_(2)(g)" as it expands against "1],[" bar pressure is: "],[(R=83MK^(-1)mol^((l))rightleftharpoons H_(2)O(l)+O_(2)(g)],[[" (a) "124.50," (b) "249,00],[" (c) "498.00]]

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If 100 mole of H_(2)O_(2) decompose at 1 bar and 300 K, the work done (kJ) by one mole of O_(2)(g) as it expands against 1 bar pressure is 2H_(2)O_(2) (l) overset(rarr)(larr) 2H_(2)O(l)+O_(2) (g) (R=8.3 JK^(-1) mol^(-1))

Calculate the work done (in J) when 4.5 g of H_(2)O_(2) reacts against a pressure of 1.0 atm at 25^(@)C 2H_(2)O_(2)(l)rarr O_(2)(g) +2H_(2)O(l)

Calulate the work done (in cal.). When 1.0 mole of N_(2)H_(4) decomposes completely against a pressure of 1.0 atm at 27^(@)C (Given R=2 cal//mol//K) N_(2)H_(4)(l)toNH_(3)(g)+N_(2)(g)

For the equilibrium H_(2)O(l) iff H_(2)O(g) at 1 atm and 298 K

Standard entropies of H_(2)(g),O_(2)(g) " and "H_(2)O(l) are respectively 126.6, 201.2 and 68JK^(-1)mol^(-1) Determine DeltaS" for "2H_(2)(g)+O_(2)(g) to 2H_(2)O(l) at 25^(@)C .

[" 3.If "100" mole of "H_(2)O_(2)" decomposes at "1" bar and "300K" ,the "],[" work done (k.D) by one mole of "O_(2)(g)" as it expands against "1],[" bar pressure is: "],[(R=83MK^(-1)mol^((l))rightleftharpoons H_(2)O(l)+O_(2)(g)],[[" (a) "124.50," (b) "249,00],[" (c) "498.00]]

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