Calculate the change in pressure when 1.04 mole of NO and 20.0 g `O_(2)` in a 20 litre vessel originaly at `27^(@)C` react to produce Ihe maximum quantity of `NO_(2)` possible according to the equation: `2NO(g) + O_(2)(g) rarr 2NO_(2)(g)`

Calculate the change in pressure when 1.04 mole of NO and 20.0gO_(2) in a 20.0L vessel originally at 27^(@)C react to produce maximum quantity of NO_(2(g)) according to reaction 2NO_((g)) +O_(2(g))rarr2NO_(2(g)) .

Calculate the change in pressure ( in atm) when 2 mole of NO and 16 g O _(2) in 6.25 litre originally at 27^(@)C react to produce the maximum quantity of NO_(2) possible according to the equation. ( Take R=(1)/(12) ltr. Atm // mol K ) 2NO(g)+O_(2)(g) hArr 2NO_(2)(g)

Pressure of a mixture of 4 g of O_(2) and 2 g H_(2) confined in a bulb of 1 litre at 0^(@)C is

2 moles of NO(g) and 16 gm of O_(2)(g) were mixed in a 6.25 litre vessel at 27^(@)C temperature to produce maximum amount of NO_(2)(g) 2NO(g)+O_(2)(g)rarr2NO_(2)(g) ("Use" :R=(1)/(12) "L-atm mol"^(-1)K^(-1)) Calculate change in pressure (in atm) due to this reaction.