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 ?

In the equiliberium 2SO_2 (g) + O_2 (g) ⇌2SO_3 , the partial pressure of SO_2 , O_2 AND SO_3 are 0.662, 0.101 and 0.331 atm respectively. What should be the partiaal pressure of oxygen so that the equiliberium of SO_2 and SO_3 are equal ?

Find the value of K_(p) for the reaction : 2SO_(2)(g)+O_(2)(g) hArr 2SO_(3)(g) , if the partial pressures of SO_(2), O_(2) , and SO_(3) are 0.559 atm, 0.101 atm and 0.331 atm respectively. What will be the partial pressure of O_(2) gas if at equilibrium, equal amounts (in moles) of SO_(2) and SO_(3) are observed?

Find the value of K_(p) for the reaction : 2SO_(2)(g)+O_(2)(g) hArr 2SO_(3)(g) , if the partial pressures of SO_(2), O_(2) , and SO_(3) are 0.559 atm, 0.101 atm and 0.331 atm respectively. What will be the partial pressure of O_(2) gas if at equilibrium, equal amounts (in moles) of SO_(2) and SO_(3) are observed?

For 2SO_(2)(g)+O_(2)(g) hArr 2SO_(3)(g),K_(p)=3.4 . At an instant, the partial pressures of SO_(2), O_(2) and SO_(3) were found to be 0.41 atm, 0.16 atm and 0.57 atm respectively. Comment on the status of equilibrium process.

For 2SO_(2)(g)+O_(2)(g) hArr 2SO_(3)(g),K_(p)=3.4 . At an instant, the partial pressures of SO_(2), O_(2) and SO_(3) were found to be 0.41 atm, 0.16 atm and 0.57 atm respectively. Comment on the status of equilibrium process.

For the equilibrium 2SO_(3) (g) Leftrightarrow 2SO_(2) (g)+O_(2)(g) , the partial pressure of SO_(y) SO_(2) and O_(2) gases at 650 K are respectively 0.2, 0.6 bar and 0.4 bar. If the moles of both the oxides of sulphur are so adjusted as equal, what will be the partial pressure of O_(2) .

At a given temperature, K_(p) is 0.36 for the reaction, 2SO_(2)(g)+O_(2)(g)hArr2SO_(3)(g) occurring in a closed vessel. If at equilibrium, the partial pressures of SO_(2)(g)&O_(2)(g) be 0.15 atm & 0.8 atm respectively, then calculate the partial pressure of SO_(3)(g) .