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(1). Examine the following equation and discuss the stresses and chemical shifts. CH() + 2H,S.) A...
(a) The research and development unit of an environmental lab is studying the reaction of CH4...
(a) The research and development unit of an environmental lab is studying the reaction of CH4 and H2S, two components of natural gas: CH-(g) + 2H2S(g) CS2(g) + 4H2(g) In one experiment, 1.00 mol of CH4, 1.00 mol of CS2, 2.00 mol of H2S and 2.00 mol of H2 are mixed in a 250 mL vessel at 960°C. At this temperature, K = 0.036. (1) Determine the reaction quotient, Qc. (6 marks) (ii) Comment on the obtained Q in Q1(a)...
Consider the following equilibrium at 25.0 degrees C and the information about initial concentrations, and answer...
Consider the following equilibrium at 25.0 degrees C and the
information about initial concentrations, and answer the
question:
CH4(g) + 2H2S
(g)
CS2(g)
+ 4H2(g)
In one experiment, 4.00 M CH4, 4.00 M
CS2, 8.00 M H2S and 8.00 M
H2 in a 1.00 L vessel at 1000 degrees C. Kc is
0.036.
After the system is allowed to reach equilibrium, which of the
following concentrations for H
2 and H 2S are
reasonable, given the above initial concentrations? (Only...
Ch. 13 NAME 1. Consider the reaction: 2NO (g)+ 2H:(g) N2(g)+ 2H O (g) At a...
Ch. 13 NAME 1. Consider the reaction: 2NO (g)+ 2H:(g) N2(g)+ 2H O (g) At a certain temperature, the equilibrium concentrations are [NO]-0.31 M [H2]-0.16 M [N2] 0.082 M and [H:0]-4.64 M (a) Write the equilibrium expression for the reaction. (b) Determine the value of the equilibrium constant 2. The equilibrium constant Kc for the following reaction is 150.7 at 1 15°C: 12 (g) + Br2 (g) ←→ 2 IBr(g) 2.00 moles of each gas (l2, Br: and IBr) are...
1. Define the following terms: a. Activation Energy b. Exothermic Reaction 2. Explain what Le Chatelier's...
1. Define the following terms: a. Activation Energy b. Exothermic Reaction 2. Explain what Le Chatelier's Principle states False True False 3. According to Collision Theory, surface area is directly related to reaction rate True 4. According to Collision Theory, reaction temperature is indirectly related to reaction rate 5. Determine the equilibrium constant K for the following reaction: H+ (aq) + OH(aq) = H20 (1) Keg 6. Determine the value of Key for the reaction CH4 (g) + 2H S(g)...
1. At a certain temperature, 0.338 mol CH4 and 0.808 mol H2O is placed in a...
1. At a certain temperature, 0.338 mol CH4 and 0.808 mol H2O is placed in a 4.00 L container. CH4(g)+2H2O(g)????CO2(g)+4H2(g) At equilibrium, 4.89 g CO2 is present. Calculate Kc. 2. At a certain temperature, 0.352 mol CH4 and 0.862 mol H2S are placed in a 1.50 L container. CH4(g)+2H2S(g)????CS2(g)+4H2(g) At equilibrium, 14.5 g CS2 is present. Calculate Kc . 3. At a certain temperature, 0.3211 mol of N2 and 1.501 mol of H2 are placed in a 2.50 L container....
Suppose a 250. mL flask is filled with 1.7 mol of H2S, 2.0 mol of CS2...
Suppose a 250. mL flask is filled with 1.7 mol of H2S, 2.0 mol of CS2 and 0.50 mol of H 2. This reaction becomes possible: CH_(8) +2H2S(g) = CS2(g) + 4H2 () Complete the table below, so that it lists the initial molarity of each compound, the change in molarity of each compound due to the reaction, and the equilibrium molarity of each compound after the reaction has come to equilibrium. Use x to stand for the unknown change...
1. In order to study hydrogen halide decomposition, a researcher fills an evacuated 1.79 L flask...
1. In order to study hydrogen halide decomposition, a researcher fills an evacuated 1.79 L flask with 0.222 mol of HI gas and allows the reaction to proceed at 436°C: 2HI (g) ⇋ H2(g) + I2(g) At equilibrium, the concentration of HI = 0.09 M. Calculate Kc. Enter to 4 decimal places. HINT: Look at sample problem 17.6 in the 8th ed Silberberg book. Write a Kc expression. Find the initial concentration. Fill in the ICE chart. Put the E (equilibrium) values...
a) In order to study hydrogen halide decomposition, a researcher fills an evacuated 1.79 L flask...
a) In order to study hydrogen halide decomposition, a researcher fills an evacuated 1.79 L flask with 0.452 mol of HI gas and allows the reaction to proceed at 428°C: 2HI (g) ⇋ H2(g) + I2(g) At equilibrium, the concentration of HI = 0.055 M. Calculate Kc. Enter to 4 decimal places. HINT: Look at sample problem 17.6 in the 8th ed Silberberg book. Write a Kc expression. Find the initial concentration. Fill in the ICE chart. Put the E (equilibrium) values...
6. Given the reaction below, answer the following questions. (30 pts) CH(9) + S(g) → CS2...
6. Given the reaction below, answer the following questions. (30 pts) CH(9) + S(g) → CS2 (9) + H2S(g) A.Balance the equation above. B.Is the sulfur oxidized or reduced in the reaction? Show charges C.Given 3.841x1025 molecules of CH4, how many moles is this? D.Given 25.15 grams of Sulfur gas, how many moles of H2S could be formed? E.How many liters would the moles of H2S gas(from Part D) occupy at 25.0°C and 1.25 atm? F.What would be the volume(L)...
False True False 3. According to Collision Theory, surface area is directly related to reaction rate True 4. Acc...
False True False 3. According to Collision Theory, surface area is directly related to reaction rate True 4. According to Collision Theory, reaction temperature is indirectly related to reaction rate 5. Determine the equilibrium constant K for the following reaction: H(aq) + OH (aq) = H2O (1) Koq = 6. Determine the value of K, for the reaction CH4 (g) + 2H,S(g) = where [CH] = 0.0005M, [HS] =0.065M, [CS2] = 0.0025M, [H2) = 0.126M CS, (g) + 4H, (g)...
(a) The research and development unit of an environmental lab is studying the reaction of CH4 and H2S, two components of natural gas: CH-(g) + 2H2S(g) CS2(g) + 4H2(g) In one experiment, 1.00 mol of CH4, 1.00 mol of CS2, 2.00 mol of H2S and 2.00 mol of H2 are mixed in a 250 mL vessel at 960°C. At this temperature, K = 0.036. (1) Determine the reaction quotient, Qc. (6 marks) (ii) Comment on the obtained Q in Q1(a)...
Consider the following equilibrium at 25.0 degrees C and the
information about initial concentrations, and answer the
question:
CH4(g) + 2H2S
(g)
CS2(g)
+ 4H2(g)
In one experiment, 4.00 M CH4, 4.00 M
CS2, 8.00 M H2S and 8.00 M
H2 in a 1.00 L vessel at 1000 degrees C. Kc is
0.036.
After the system is allowed to reach equilibrium, which of the
following concentrations for H
2 and H 2S are
reasonable, given the above initial concentrations? (Only...
Ch. 13 NAME 1. Consider the reaction: 2NO (g)+ 2H:(g) N2(g)+ 2H O (g) At a certain temperature, the equilibrium concentrations are [NO]-0.31 M [H2]-0.16 M [N2] 0.082 M and [H:0]-4.64 M (a) Write the equilibrium expression for the reaction. (b) Determine the value of the equilibrium constant 2. The equilibrium constant Kc for the following reaction is 150.7 at 1 15°C: 12 (g) + Br2 (g) ←→ 2 IBr(g) 2.00 moles of each gas (l2, Br: and IBr) are...
1. Define the following terms: a. Activation Energy b. Exothermic Reaction 2. Explain what Le Chatelier's Principle states False True False 3. According to Collision Theory, surface area is directly related to reaction rate True 4. According to Collision Theory, reaction temperature is indirectly related to reaction rate 5. Determine the equilibrium constant K for the following reaction: H+ (aq) + OH(aq) = H20 (1) Keg 6. Determine the value of Key for the reaction CH4 (g) + 2H S(g)...
Suppose a 250. mL flask is filled with 1.7 mol of H2S, 2.0 mol of CS2 and 0.50 mol of H 2. This reaction becomes possible: CH_(8) +2H2S(g) = CS2(g) + 4H2 () Complete the table below, so that it lists the initial molarity of each compound, the change in molarity of each compound due to the reaction, and the equilibrium molarity of each compound after the reaction has come to equilibrium. Use x to stand for the unknown change...
6. Given the reaction below, answer the following questions. (30 pts) CH(9) + S(g) → CS2 (9) + H2S(g) A.Balance the equation above. B.Is the sulfur oxidized or reduced in the reaction? Show charges C.Given 3.841x1025 molecules of CH4, how many moles is this? D.Given 25.15 grams of Sulfur gas, how many moles of H2S could be formed? E.How many liters would the moles of H2S gas(from Part D) occupy at 25.0°C and 1.25 atm? F.What would be the volume(L)...
False True False 3. According to Collision Theory, surface area is directly related to reaction rate True 4. According to Collision Theory, reaction temperature is indirectly related to reaction rate 5. Determine the equilibrium constant K for the following reaction: H(aq) + OH (aq) = H2O (1) Koq = 6. Determine the value of K, for the reaction CH4 (g) + 2H,S(g) = where [CH] = 0.0005M, [HS] =0.065M, [CS2] = 0.0025M, [H2) = 0.126M CS, (g) + 4H, (g)...
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