Consider the following reaction between carbon monoxide and hydrogen, CO(g) + 2 H_2(g) Equilibrium CH_3OH(l) K_p...
Determining the Equilibrium Constant K_p: Methane (CH_4) reacts with hydrogen sulfide to yield H_2 and carbon disulfide, a solvent used in manufacturing rayon and cellophane: CH_4(g) + 2H_2S(g) Equilibrium CS_2(g) + 4 H_2(g) What is the value of K_p at 1000 K if the partial pressures in an equilibrium mixture at 1000 K are 0.20 atm of CH_4, 0.25 atm of H_2S, 0.52 atm of CS_2, and 0.10 atm of H_2?
Consider the following reaction: H_2 (g) + Br_2 (g) rlhar 2HBr(g) At some temperature, K_p = 35.5. Within a container, P_H_2 = 5.00 atm, P_Br_2 = 0.700 atm, and P_HBr = 1.60 atm Determine Q_p for this reaction under these conditions. (Round Q_p to 3 sig figs). Q_p = In which direction will the reaction shift to reach equilibrium? (Round Q_p to 3 sig figs).
Carbon monoxide and hydrogen react according to the following equation: CO(g) + 3H_2(g) CH_4(g) + H_2 O (g) When 1.000mol CO and 3.000 moles H_2, are placed in a 10.00-L vessel at 9271 C and allowed to come to equilibrium the mixture is found to contain 0.387 moles of H.O. What is the molar composition of the equilibrium mixture? That is how many moles of cach substancc arc present? Set up the Data Table.
"Synthesis gas" is a mixture of carbon monoxide and water vapor. At high temperature synthesis gas will form carbon dioxide and hydrogen, and in fact this reaction is one of the ways hydrogen is made industrially. A chemical engineer studying this reaction fills a 500. mL flask at 20·°C with 4.9 atm of carbon monoxide gas and 2.5 atm of water vapor. He then raises the temperature considerably, and when the mixture has come to equilibrium determines that it contains...
52. A high temperatures carbon monoxide and hydrogen react to produce methanol, CO(g) + 2H2(g) CHOH(g) Δ}":-129 klinol Suppose that in an industrial reactor, the reaction is at equilibrium. For each of the following changes made to the equilibrium system a. The partial pressure of hydrogen is lowered, how will the partial pressures of b. Methanol is rapidly removed from the reactor, how will the pressures of the c· The temperature remains constant while the volume decreases, compressing d. The...
Co (g) + H_2O(g) CO_2 (g) + H_2(g) In an experiment, 0.35 mol of CO and 0.40 mol H_2O were placed in a 1.00 - L reaction vessel. At equilibrium, there were 0.19 mol of CO remaining. Keq at the temperature of the experiments is The acid-dissociation constant, K_a, for a weak acid is 4.57 x 10^-3. What is the base-dissociation constant, K_b+ for its conjugate base? Give one example of an amphoteric substance. At 200 degree C, the equilibrium...
A mixture of carbon monoxide, hydrogen, and methanol, CH, OH, is at equilibrium according to the equation CO(g) + 2H2 (9) = CH3OH(9) At 270°C, the mixture is 5.0 x 10-2 M CO.0.760 M H2, and 9.8 x 10-3 M CH3OH What is Ke for this reaction at 270°C? Ke= When 0.125 mol of NO and 18.50 g of bromine are placed in a 1.00-L reaction vessel and sealed, the mixture is heated to 350 K and the following equilibrium...
At 850. K, the value of the equilibrium constant K_p for the hydrazine synthesis reaction below is 0.1900. N_2(g) + H_2(g) rightwardsharpoonoverleftwardsharpoon N_2H_2(g) If a vessel contains an initial reaction mixture in which [N_2] = 0.01000 M, [H_2] = 0.02500 M, and [N_2H_2] = 1.000 times 10^-4 M, what will the [N_2H_2] be when equilibrium is reached? M
Carbon monoxide and hydrogen react catalytically to produce methanol. CO + 2HZ rightarrow CH_3OH The fresh feed (100 moles/min) composition is 30 mole% carbon monoxide, a stoichiometric proportion of hydrogen and 10 mole% inert (nitrogen). A condenser (operates at 0 degree C and 1 atm) separates the unreacted gases and inert from the liquid product methanol. Part of the gas stream is recycled back into the main feed line to the reactor and the rest purged. The recycle ratio is...
Carbon monoxide gas may be formed as follows. C0_2(g) + C(s) 2 CO(g) K_p = 5.78 at 1200 K 3.46 g of C0_2,1.98 g of C(s) and 7.22 g of CO(g) are placed in a 12.2 L container and heated to 1200 K. Calculate the total pressure (in bar) at equilibrium. All mathematical steps must be shown. If the volume of the vessel is allowed to expand to 40.0 L when the system is already at equilibrium, would you predict...