The volumes of gases H_2,CH_4,CO_2 and NH_3 adsorbed by 1gr of charcoal at 288K are in the order
AT673 K. in the formation of NH_(3) From N_(2) and H_(2) , the partial pressures of N_(2) , H_(2) and and NH_(3) at equilibrium are 0.5 , 1 and 9 xx 10^(-3) atm respectively. (N_(2) + 3H_(2) hArr + Q) Calculate K_(c) for the reaction.
For the formation of NH_(3) from N_(2) and H_(2) at 500 K, the concentration of N_(2), H_(2) and NH_(3) at equilibrium are 1. 5xx10^(-2) M and 1.2xx10^(-2)M, respectively. The equilibrium constant for the reverse reaction is
AT673 K. in the formation of NH_(3) From N_(2) and H_(2) , the partial pressures of N_(2) , H_(2) and and NH_(3) at equilibrium are 0.5 , 1 and 9 xx 10^(-3) atm respectively. (N_(2) + 3H_(2) hArr + Q) Report Delta G^(@) using K_(p) value
AT673 K. in the formation of NH_(3) From N_(2) and H_(2) , the partial pressures of N_(2) , H_(2) and and NH_(3) at equilibrium are 0.5 , 1 and 9 xx 10^(-3) atm respectively. (N_(2) + 3H_(2) hArr + Q) Report Delta K_(C) Value
Critical temperature of SO_2, N_2, NH_3 and CH_4 are 430 K, 126K, 406 K and 356 K. Arrange in the descending order of volume of these gases adsorbed per gram of charcoal.
NARENDRA AWASTHI-SURFACE CHEMISTRY-Level 3 - Assertion - Reason Type Questions
