10 lt. box contain O3 and O2 at equilibr...

10 lt. box contain `O_3 and O_2` at equilibrium at 2000 K.The `DeltaG^**=-534.52 kJ` at 8 atm equilibrium pressure The following equilibrium is present in the container
`2O_3(g)hArr3O_2(g)`.The partial pressure of `O_3` will be (In 10=2.3, R=8.3 J`"mole"^(-1)K^(-1)`):

`9.71 xx 10^(-5)` atm

`9.71 xx 10^(-7)` atm

`9.71 xx 10^(-6)` atm

`9.71 xx 10^(-2)` atm

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10 lt. box contain `O_3 and O_2` at equilibrium at 2000 K.The `DeltaG^**=-534.52 kJ` at 8 atm equilibrium pressure The following equilibrium is present in the container `2O_3(g)hArr3O_2(g)`.The partial pressure of `O_3` will be (In 10=2.3, R=8.3 J`"mole"^(-1)K^(-1)`):

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10 lt. box contain `O_3 and O_2` at equilibrium at 2000 K.The `DeltaG^**=-534.52 kJ` at 8 atm equilibrium pressure The following equilibrium is present in the container
`2O_3(g)hArr3O_2(g)`.The partial pressure of `O_3` will be (In 10=2.3, R=8.3 J`"mole"^(-1)K^(-1)`):