`2SO_(3)hArr2SO_(2) + O_(2)`. If `K_(c) = 100`, `alpha = 1`, half of the reaction is completed, the concentration of `SO_(3)` and `SO_(2)` are equal, the concentration of `O_(2)` is

SO_(2)+(1)/(2)O_(2)hArrSO_(3) , for the above reaction, if 'a' and 'b' mole/1 are the initial concentrations of SO_(2) and O_(2) respectively and x mole SO_(3) is formed at equlibrium. The equilibrium concentration of O_(2) will be

In the reaction, 2SO_(2) +O_(2) to 2SO_(3) when 1 mole of SO_(2) and 1 mole of O_(2) are made to react to completion

For a reaction, 2SO_(2(g))+O_(2(g))hArr2SO_(3(g)) , 1.5 moles of SO_(2) and 1 mole of O_(2) are taken in a 2 L vessel. At equilibrium the concentration of SO_(3) was found to be 0.35 mol L^(-1) The K_(c) for the reaction would be

The answer to each of the folowing questions is a single digit integar, ranging from 0 to 9. If the correct answers to the question numbers A, B, C and D (say) are 4,0,9 and 2 respectively , then the correct darkening of bubbles should be as shown on the side : If concentrations of SO_(2) and O_(2) in the equilibrium reaction , 2SO_(2) (g) + O_(2) (g) hArr 2 SO_(3) (g) are quadrupled , the concentration of SO_(3) now will be times .......... times.

In the equilibrium 2SO_(2)(g)+O_(2)(g)hArr2SO_(3)(g) , the partial pressure of SO_(2),O_(2) and SO_(3) are 0.662,0.10 and 0.331 atm respectively . What should be the partial pressure of Oxygen so that the equilibrium concentrations of SO_(3) are equal ?

For the equilibrium 2SO_(2)(g)+O_(2)(g) 2SO_(3)(g),DeltaH=-198KJ , the equilibrium concentration of SO_(3) will be affected by