100 mmol of (NH3), 300 mmol, are introduced into a 2 L container at 127 °C of (H2) and 200 mmol of (N2). A thermometer and a pressure gauge connected to the container show that the reaction between Nitrogen and Hydrogen occurs at 127 ° C and that said reaction reaches equilibrium marking a pressure of 7.1 bar. Find the equilibrium constant Kp °, considering that ?G ° 400K = −11.92 kj/mol Find the amount of substance (in mmol) that will be had for each species when the reaction has reached equilibrium.
100 mmol of (NH3), 300 mmol, are introduced into a 2 L container at 127 °C of (H2) and 200 mmol of (N2). A thermometer and a pressure gauge connected to the container show that the reaction between Nitrogen and Hydrogen occurs at 127 ° C and that said reaction reaches equilibrium marking a pressure of 7.1 bar. Find the equilibrium constant Kp °, considering that ?G ° 400K = −11.92 kj/mol Find the amount of substance (in mmol) that will be had for each species when the reaction has reached equilibrium.
Chemistry: An Atoms First Approach
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Chapter16: Spontaneity, Entropy, And Free Energy
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100 mmol of (NH3), 300 mmol, are introduced into a 2 L container at 127 °C of (H2) and 200 mmol of (N2). A thermometer and a pressure gauge connected to the container show that the reaction between Nitrogen and Hydrogen occurs at 127 ° C and that said reaction reaches equilibrium marking a pressure of 7.1 bar.
- Find the equilibrium constant Kp °, considering that ?G ° 400K = −11.92 kj/mol
- Find the amount of substance (in mmol) that will be had for each species when the reaction has reached equilibrium.
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