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[" 73.If "10^(-4)dm^(3)" of water is int...

[" 73.If "10^(-4)dm^(3)" of water is introduced into a "1.0dm^(3)" flask at "300K" ,how many moles of water "],[" are in the vapour phase when equilibrium is established? "],[" (Given : Vapour pressure of "H_(2)O" at "300K" is "3170Pa;R=8.314JK^(-1)mol^(-1)" ) "],[[" (a) "127times10^(-3)mole," (b) "5.56times10^(-3)mole,,]]

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If 10^(-4) dm^(3) of water is introduced into a 1.0 dm^(3) flask to 300K how many moles of water are in the vapour phase when equilibrium is established ? (Given vapour pressure of H_(2)O at 300K is 3170Pa R =8.314 JK^(-1) mol^(-1)) .

If 10^(-4) dm^(3) of water is introduced into a 1.0 dm^(3) flask to 300K how many moles of water are in the vapour phase when equilibrium is established ? (Given vapour pressure of H_(2)O at 300K is 3170Pa R =8.314 JK^(-1) mol^(-1)) .

If 10^(-4) dm^(3) of water is introduced into a 1.0 dm^(3) flask to 300K how many moles of water are in the vapour phase when equilibrium is established ? (Given vapour pressure of H_(2)O at 300K is 3170Pa R =8.314 JK^(-1) mol^(-1)) .

If 10^(-4) dm^(3) of water is introduced into a 1.0 dm^(3) . Flask at 300 K, calculate the number of moles of water is in vapour phase when equililbrium is established ? (V.P. of H_(2)O at 300 K is 3170 Pa )

How many moles of water are in vapour phase present inside the vessel containing 1L water after sufficient time? (Vapour pressure of water at 27^(@)C=3000Pa,R=(25)/(3)J//mol-K )

If equilibrium constant K is 10^(3) , the Delta G^(theta) for the reaction at 300 K is (assume R = 8.314 JK^(-1) mol^(-1) ) :