1 mole of `H_(2)` and 2 moles of `I_(2)` are taken initially in a 0.2 L container. Then, the number of moles of `H_(2)` at equilibrium is 0.2. Then, the number of moles of `I_(2)` and HI at equilibrium are

One mole of H_(2) and 2 moles of I_(2) are taken initially in a two litre vessel. The number of moles of H_(2) at equilibrium is 0.2. Then the number of moles of I_(2) and HI at equilibrium is

Consider the following reaction equilibrium N_(2)(g) + 3H_(2)(g) hArr 2NH_(3)(g) Initially, 1 mole of N_(2) and 3 moles of H_(2) are taken in a 2 flask. At equilibrium state if, the number of moles of N_(2) is 0.6, what is the total number of moles of all gases present in the flask ?

Find the : weight of 0.2 mole of H_(2) gas

In 5 litre container 1 mole of H_(2) and 1 mole of I_(2) are taken initially and at equilibrium of HI is 40% . Then K_(p) will be

Hydrogen (a moles ) and iodine (b moles ) react to give 2x moles of the HI at equilibrium . The total number of moles at equilibrium is

A mixture of 2 moles of N_(2) and 8 moles of H_(2) are heated in a 2 lit vessel, till equilibrium is established. At equilibrium, 04 moles of N_(2) was present. The equilibrium concentration of H_(2) will be

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)

15 mol of H_(2) and 5.2 moles of I_(2) are mixed and allowed to attain eqilibrium at 500^(@)C At equilibrium, the concentration of HI is founf to be 10 mol. The equilibrium constant for the formation of HI is.

How many gram of H_(2)O are present in 0.2 mole of it