[" 1.Mole "N_(2)" and "4" moles "M_(2)" ane taken in "],[15" lask at "27^(@)" .A ter wry lete "],[" conversion of "N_(2)" into "$13,5L" of "1/20],[" is added.Pressur set sed up in the leask "]

N_(2)+3H_(2)rarr2NH_(3) . 1 mol N_(2) and 4 mol H_(2) are taken in 15L flask at 27^(@)C After complete conversion of N_(2) into NH_(3),5L of H_(2)O is added. pressure set up in the flask is:

N_(2)+3H_(2)rarr2NH_(3) . 1 mol N_(2) and 4 mol H_(2) are taken in 15L flask at 27^(@)C After cmomplete conversion of N_(2) into NH_(3),5L of H_(2)O is added pressure set up in the flask is:

2 "mole" N_(2) and 3 "mole" H_(2) gas are allowed to react in a 20 L flask at 400 K and after complete conversion of H_(2) into NH_(3) . 10 L H_(2)O was added and temperature reduced to 300 K . Pressure of the gas after reaction is : N_(2)+3H_(2)to2NH_(3)

2 "mole" N_(2) and 3 "mole" H_(2) gas are allowed to react in a 20 L flask at 400 K and after complete conversion of H_(2) into NH_(3) . 10 L H_(2)O was added and temperature reduced to 300 K . Pressure of the gas after reaction is : N_(2)+3H_(2)to2NH_(3)

2 "mole" N_(2) and 3 "mole" H_(2) gas are allowed to react in a 20 L flask at 400 K and after complete conversion of H_(2) into NH_(3) . 10 L H_(2)O was added and temperature reduced to 300 K . Pressure of the gas after reaction is : N_(2)+3H_(2)to2NH_(3)

1 "mole of" N_(2) and 3 "moles of " H_(2) are placed in 1L vessel. Find the concentration of NH_(3) at equilibrium, if the equilibrium constant (K_(c)) at 400K "is" (4)/(27)

1 "mole of" N_(2) "and" 3 "moles of " H_(2) are placed in 1L vessel. Find the concentration of NH_(3) at equilibrium, if the equilibrium constant (K_(c)) at 400K "is" (4)/(27)

Two moles of N_(2) and two moles of H_(2) are taken in a closed vessel of 5 litre capacity and suitable conditions are provided for the reaction. When the equilibrium is reached, it is found that a half mole of N_(2) is used up. The equilibrium concentration of NH_(3) is

[" The kinetic energy of "0.5" mole of "N_(2)" gas is "xJ" at "1.5" atm "],[" pressure then the kinetic energy of the gas at "4.5" atm "],[" pressure and at same temperature will be "]