If K1 is the equilibrium constant at tem...

If `K_1` is the equilibrium constant at temperature `T_1 and K_2` is the equilibrium constant at temperature `T_2 and` If `T_2 gt T_1` and reaction is endothermic then

`K_2 lt K_1`

`K_2 = K_1`

`K_2 gt K_1`

All of these

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For a given exothermic reaction , K_(p) and k'_(p) are the equilibrium constants at temperatures T_(1) and T_(2) respectively. Assuming that heat of reaction is constant in temperature range reaction is constant in temperature range between T_(1) and T_(2) , it is readily observed that

`K_(p) gt K'_(p)`

`K_(p) lt K'_(p)`

`K_(p) = K'_(p)`

`K_(p) =(1)/(k'_(p))`

For a given exothermic reaction, K_p and K_(p)^' are the equilibrium constants at temperatures T_1 and T_2 respectively. Assuming that heat of reaction is constant in temperature range between T_1 and T_2, it is readily water that

`K_(p) gt K_(p)'`

`K_(p) lt K_(p)'`

`K_(p)=K_(p)'`

`K_(p)=1/(K_(p)')`

For a given exthermic reaction , K_(p) nd K_(p) are the equilibrium constants at temperature T_(1) and T_(2) respectively . Assumbing that heat of reaction is constant in temperature range between T_(1) and T_(2) it is readily observed that

` K_(p) gt K_(p)'`

` K_(p) lt K'_(p)`

`K_(p) = K'_(p)`

` K_(p) = 1/(K'_(p)) `

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If `K_1` is the equilibrium constant at temperature `T_1 and K_2` is the equilibrium constant at temperature `T_2 and` If `T_2 gt T_1` and reaction is endothermic then

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For a given exothermic reaction , K_(p) and k'_(p) are the equilibrium constants at temperatures T_(1) and T_(2) respectively. Assuming that heat of reaction is constant in temperature range reaction is constant in temperature range between T_(1) and T_(2) , it is readily observed that

For a given exothermic reaction, K_p and K_(p)^' are the equilibrium constants at temperatures T_1 and T_2 respectively. Assuming that heat of reaction is constant in temperature range between T_1 and T_2, it is readily water that

For a given exthermic reaction , K_(p) nd K_(p) are the equilibrium constants at temperature T_(1) and T_(2) respectively . Assumbing that heat of reaction is constant in temperature range between T_(1) and T_(2) it is readily observed that

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