For the equilibrium: LiC 1.3 NH(3)(s) ...

For the equilibrium:
`LiC 1.3 NH(3)(s) hArr LiCl. NH_(3)(s)+2NH_(3)`
`K_(p)=9 atm^(2)` at `40^(@)C`. A `5-L` vessel contains `0.1` "mole" of `LiCl.NH_(3)`. How many moles of `NH_(3)` should be added to the flask at this temperature to derive the backward reaction for completion?

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For the equilibrium: `LiC 1.3 NH(3)(s) hArr LiCl. NH_(3)(s)+2NH_(3)` `K_(p)=9 atm^(2)` at `40^(@)C`. A `5-L` vessel contains `0.1` "mole" of `LiCl.NH_(3)`. How many moles of `NH_(3)` should be added to the flask at this temperature to derive the backward reaction for completion?

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For the equilibrium:
`LiC 1.3 NH(3)(s) hArr LiCl. NH_(3)(s)+2NH_(3)`
`K_(p)=9 atm^(2)` at `40^(@)C`. A `5-L` vessel contains `0.1` "mole" of `LiCl.NH_(3)`. How many moles of `NH_(3)` should be added to the flask at this temperature to derive the backward reaction for completion?