For the process, `H_2O(l) (1 bar, 273 K) rarr H_2 O(g) (1 bar, 373 K),` the correct set of thermodynamic parameters is :

For a phase change H_2O(l)⇌H_2O(s) 0^@C ,1 bar

F_2 + H_2O + KClO_3 rarr ____+ KClO_4

The reaction, 2H_2O_2rarr 2H_2O + O_2 , shows that H_2O_2 :

The reaction, H_2S+H_2O_2 rarrS+2H_2O manifests:

In the reaction CH_2O + CH_3 MgI rarr A overset (H_2O) rarr B + Mg(OH)_2 . What are A and B ?

One mole of ice is converted into water at 273 K. The entropies of H_2O(s) and H_2O(l) are 38.20 and 60.01 J mol^-1 K^-1 respectively. The enthalpy change for the conversion is:

For the decomposition of N_(2) O_(5) given as, N_(2) O_(5) (g) to N_(2) O_(4) (g) + 1//2O_(2) (g) If the rate law =K [N_(2) O_(5) ] and K=1.68 xx 10^(-2)" s"^(-1) , starting with 2.5 moles, of N_(2) O_(5)(g) in a 5.0"L" container at 298K, how many moles of N_(2) O_(5) would remain after 1.0 minutes?

Hydrogen peroxide, H_(2) O_(2) (aq) decomposes to H_(2) O(l) and O_(2) (g) is a first order in which H_(2) O_(2) has a rate constant, k= 1.06 xx 10^(-3)" min"^(-1) . How long will it take 15% of a sample of H_(2) O_(5) to decompose?