Consider the expression \[\Delta G=-\,RT\,\ln {{K}_{p}}+RT\,\ln {{Q}_{p}}\] and indicate the correct statement at equilibrium

\[\Delta G=\infty ,\text{ }{{Q}_{p}}<{{K}_{p}}\] the equilibrium reaction will shift from right to left

\[\Delta G=0,\text{ }{{Q}_{p}}>{{K}_{p}}\] the equilibrium reaction will shift from left to right

\[\Delta G=0,\text{ }{{Q}_{p}}={{K}_{p}}\] the equilibrium reaction will shift from left to right

\[\Delta G=\infty ,\text{ }{{Q}_{p}}

\[\Delta G{{K}_{p}}\] the equilibrium reaction will shift from right to left where \[{{Q}_{p}}\] and \[{{K}_{p}}\] term refer to reaction quotient and equilibrium constant at constant pressure respectively.

Consider the expression \[\Delta G=-\,RT\,\ln {{K}_{p}}+RT\,\ln {{Q}_

1.	Consider the expression \[\Delta G=-\,RT\,\ln {{K}_{p}}+RT\,\ln {{Q}_{p}}\] and indicate the correct statement at equilibrium
A.	\[\Delta G=0,\text{ }{{Q}_{p}}>{{K}_{p}}\] the equilibrium reaction will shift from left to right
B.	\[\Delta G=0,\text{ }{{Q}_{p}}={{K}_{p}}\] the equilibrium reaction will shift from left to right
C.	\[\Delta G=\infty ,\text{ }{{Q}_{p}}<{{K}_{p}}\] the equilibrium reaction will shift from right to left
D.	\[\Delta G<0,\text{ }{{Q}_{p}}>{{K}_{p}}\] the equilibrium reaction will shift from right to left where \[{{Q}_{p}}\] and \[{{K}_{p}}\] term refer to reaction quotient and equilibrium constant at constant pressure respectively.
Answer» C. \[\Delta G=\infty ,\text{ }{{Q}_{p}}<{{K}_{p}}\] the equilibrium reaction will shift from right to left

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