Homework Answers
please help with question four and five 3. For the reaction PbCl2 (6) Pb2+ + 2CV,...
please help with question four and five
3. For the reaction PbCl2 (6) Pb2+ + 2CV, what is the value of the equilibrium constant if [Pb 2+] = 0.0022 M and (CI) is 0.027 M? [P621] = 0.002am kc [Pb2+] [...] [cr] =0.027m [PbCl2 (s) [pbela (s)]= Ke=0.0022x10.02222 4. The equilibrium constant for the reaction of nitrogen and hydrogen to produce ammonia is = 1.6.x10-6 0.094 M? at 450°C. If [N2) =0,012 M and [H2] = 0.42 M at equilibrium,...
4. The equilibrium constant for the reaction is 2.60 x 10-7 at 300 °C. 2 NO2(g)...
4. The equilibrium constant for the reaction is 2.60 x 10-7 at 300 °C. 2 NO2(g) = 2 02(g) + N2(g) If 0.250 mol of NO, gas is placed in 5.00 L vessel and allowed to reach equilibrium at this temperature, calculate the equilibrium concentrations of the nitrogen gas and oxygen gas. (Ignoring X Method) s. For the following reaction: 2 NH3(g) = 3 H2(g) + N2(g) When 1.2 mol of hydrogen gas and 0.40 mol of nitrogen gas are...
Nitrogen gas and hydrogen gas can ve converted into ammonia gas as shown in the reaction...
Nitrogen gas and hydrogen gas can ve converted into ammonia
gas as shown in the reaction equation listed below. Answer each of
the questions listed below regarding this reaction.
1. Nitrogen gas and hydrogen gas can be converted into ammonia gas as shown in the reaction equation listed below. Answer each of the questions listed below regarding this reaction. N2(g) + 3 H2(g) = 2 NH3(g) AH = -92.2 kJ/mole and K = 2.6 x 108 This reaction is an...
At 400 K, the reaction N2 (g) + 3 H2 (g) → 2 NH3 (g) reaches...
At 400 K, the reaction N2 (g) + 3 H2 (g) → 2 NH3 (g) reaches equilibrium when the partial pressures of nitrogen, hydrogen, and ammonia gases are 4.00 atm, 1.00 atm, and 1.05 x 10−2 atm, respectively. Given that the standard enthalpy of the reaction at 400K is DH = -94 kJ/mol, estimate the value of the equilibrium constant KP at 450 K assuming that the standard enthalpy of reaction does not vary significantly with temperature in this temperature...
Nitrogen and hydrogen react to produce ammonia (Haber process). the Kp for the reaction is 4.51...
Nitrogen and hydrogen react to produce ammonia (Haber process). the Kp for the reaction is 4.51 x 10^-5 at 450 degrees C. determine if the following mixtures are at equilibrium at 450 degrees C. If not, indicate the direction (toward product or toward reactants) in which the mixture must shift to achieve equilibrium. (Calculate Qp for each case). N2 (g) + 3H2 (g) ⇌ 2 NH3 (g) a) 98 atm Nh3, 45 atm N2, 55 atm H2 b) 57 atm...
For the reaction 2 NH3 --> 3 H2 + 2 N2 The rate of disappearance of...
For the reaction 2 NH3 --> 3 H2 + 2 N2 The rate of disappearance of ammonia is -0.00698 M/hr Calculate the rate of appearance of hydrogen gas Calculate the rate of appearance of nitrogen gas
6. (2 points) Nitrogen gas and hydrogen gas react to produce ammonia and release heat as...
6. (2 points) Nitrogen gas and hydrogen gas react to produce ammonia and release heat as shown in the thermochemical equation below. a. If 25,356 J of heat were released in the reaction, what is the mass of ammonia that was produced? b. Is the reaction exothermic or endothermic? ) + 3 H2(g) → 2 NH3(g) Hrxn = -92.2 kJ
Ammonia (NH3) is formed via the following reaction between hydrogen (H2) and nitrogen (N2): 3H2(g) +...
Ammonia (NH3) is formed via the following reaction between hydrogen (H2) and nitrogen (N2): 3H2(g) + N2(g) 22 NH3(g) For a particular experiment at equilibrium, it was found that the molar concentrations of the three species were as follows: [H2(g)] = 0.162 M, [N2(g)] = 0.100 M. and [NH3(g)] = 0.0100 M. What is the equilibrium constant (K) for this experiment? 4.25 0.617 1.622 0.412 0.235
At 450°C, ammonia gas will decompose according to the following equation 2 NHa (g)N2 (g)3 H2...
At 450°C, ammonia gas will decompose according to the following equation 2 NHa (g)N2 (g)3 H2 (g) Kc 6.30 at 450.C An unknown quantity of NH3 is placed in a reaction flask (with no N2 or Hz) and is allowed to come to equilibrium at 450.0°C. The equilibrium concentration of H2 is then determined to be 0.111 M. Determine the initial concentration of NH3 placed in the flask. Initial concentration NH3 M Evaluate
The following ia a balanced reaction N2 (g) + 3 H2 (g)2 N We read the...
The following ia a balanced reaction N2 (g) + 3 H2 (g)2 N We read the above reaction as follows: 1 mole of N2 (nitrogen)reacts with 3 moles of H2 (hydrogen) to form 2 moles of NH3 (ammonia). Which statement is correct (a) 14.0 g of nitrogen reacts with reacts with 6.0 g of hydrogen to form 34.0 g ammonia (b) 28.0 g of nitrogen reacts with 6.0 g hydrogen to form 17.0 g ammonia (c) 14.0 g of nitrogen...
please help with question four and five
3. For the reaction PbCl2 (6) Pb2+ + 2CV, what is the value of the equilibrium constant if [Pb 2+] = 0.0022 M and (CI) is 0.027 M? [P621] = 0.002am kc [Pb2+] [...] [cr] =0.027m [PbCl2 (s) [pbela (s)]= Ke=0.0022x10.02222 4. The equilibrium constant for the reaction of nitrogen and hydrogen to produce ammonia is = 1.6.x10-6 0.094 M? at 450°C. If [N2) =0,012 M and [H2] = 0.42 M at equilibrium,...
4. The equilibrium constant for the reaction is 2.60 x 10-7 at 300 °C. 2 NO2(g) = 2 02(g) + N2(g) If 0.250 mol of NO, gas is placed in 5.00 L vessel and allowed to reach equilibrium at this temperature, calculate the equilibrium concentrations of the nitrogen gas and oxygen gas. (Ignoring X Method) s. For the following reaction: 2 NH3(g) = 3 H2(g) + N2(g) When 1.2 mol of hydrogen gas and 0.40 mol of nitrogen gas are...
Nitrogen gas and hydrogen gas can ve converted into ammonia
gas as shown in the reaction equation listed below. Answer each of
the questions listed below regarding this reaction.
1. Nitrogen gas and hydrogen gas can be converted into ammonia gas as shown in the reaction equation listed below. Answer each of the questions listed below regarding this reaction. N2(g) + 3 H2(g) = 2 NH3(g) AH = -92.2 kJ/mole and K = 2.6 x 108 This reaction is an...
6. (2 points) Nitrogen gas and hydrogen gas react to produce ammonia and release heat as shown in the thermochemical equation below. a. If 25,356 J of heat were released in the reaction, what is the mass of ammonia that was produced? b. Is the reaction exothermic or endothermic? ) + 3 H2(g) → 2 NH3(g) Hrxn = -92.2 kJ
Ammonia (NH3) is formed via the following reaction between hydrogen (H2) and nitrogen (N2): 3H2(g) + N2(g) 22 NH3(g) For a particular experiment at equilibrium, it was found that the molar concentrations of the three species were as follows: [H2(g)] = 0.162 M, [N2(g)] = 0.100 M. and [NH3(g)] = 0.0100 M. What is the equilibrium constant (K) for this experiment? 4.25 0.617 1.622 0.412 0.235
At 450°C, ammonia gas will decompose according to the following equation 2 NHa (g)N2 (g)3 H2 (g) Kc 6.30 at 450.C An unknown quantity of NH3 is placed in a reaction flask (with no N2 or Hz) and is allowed to come to equilibrium at 450.0°C. The equilibrium concentration of H2 is then determined to be 0.111 M. Determine the initial concentration of NH3 placed in the flask. Initial concentration NH3 M Evaluate
The following ia a balanced reaction N2 (g) + 3 H2 (g)2 N We read the above reaction as follows: 1 mole of N2 (nitrogen)reacts with 3 moles of H2 (hydrogen) to form 2 moles of NH3 (ammonia). Which statement is correct (a) 14.0 g of nitrogen reacts with reacts with 6.0 g of hydrogen to form 34.0 g ammonia (b) 28.0 g of nitrogen reacts with 6.0 g hydrogen to form 17.0 g ammonia (c) 14.0 g of nitrogen...
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