Consider the following reaction where K_c = 9.52 Times 10^-2 at 350 K: CH_4 (g)

Question

Consider the following reaction where K_c = 9.52 Times 10^-2 at 350 K: CH_4 (g) + CCl_4(g) 2CH_2 Cl_2(g) A reaction mixture was found to contain 2.28 Times 10^-2 moles of CH_4 (g), 3.71 Times 10^-2 moles of CCl_4 (g) and 1.13 Times 10^-2 moles of CH_2 Cl_2(g), in a 1.00 Liter container. Indicate True (T) or False (F) for each of the following: In order to reach equilibrium CH_2 Cl_2 (g) must be produced. In order to reach equilibrium K_c must increase. In order to reach equilibrium CH_4 must be produced. Q_c is greater than K_c. The reaction is at equilibrium. No further reaction will occur.

Explanation / Answer

1) true in order to reach equillibium the concerntration of CH2CL2 must be produced .

2) yes Kc must incease in order to reach equillibrium

3). No

4)YES Qc is greater than Kc

5)No

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