Consider the following reaction. 2HI (g) = H2 (g) + l2 (g) Ke = 0.020 at 720 K If the initial concentrations of hydrogen iodide, HI, hydrogen, H2 and iodine, I2 gases are all 1.50 x 10-3 M at 720 K, choose the correct statement that best describes the reaction. The concentrations of H, and HI will decrease as the system is approaching equilibrium. The concentrations of H, and I, will increase as the system is approaching equilibrium. The concentration HI will increase as the system is approaching equilibrium. The concentrations of HI and I, will increase as the system is approaching equilibrium.

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Chapter1: Chemical Foundations
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Consider the following reaction.
2HI (g) = H2 (g) + 12 (g)
Ke = 0.020 at 720 K
If the initial concentrations of hydrogen iodide, HI, hydrogen, H2 and iodine, I2 gases
are all 1.50 x 10-3 M at 720 K, choose the correct statement that best describes the
reaction.
The concentrations of H, and HI will
decrease as the system is approaching
equilibrium.
The concentrations of H, and I, will increase
as the system is approaching equilibrium.
The concentration HI will increase as the
system is approaching equilibrium.
The concentrations of HI and I, will increase
as the system is approaching equilibrium.
Transcribed Image Text:Consider the following reaction. 2HI (g) = H2 (g) + 12 (g) Ke = 0.020 at 720 K If the initial concentrations of hydrogen iodide, HI, hydrogen, H2 and iodine, I2 gases are all 1.50 x 10-3 M at 720 K, choose the correct statement that best describes the reaction. The concentrations of H, and HI will decrease as the system is approaching equilibrium. The concentrations of H, and I, will increase as the system is approaching equilibrium. The concentration HI will increase as the system is approaching equilibrium. The concentrations of HI and I, will increase as the system is approaching equilibrium.
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