a
The order of the reaction with respect to CO is a=1
The order of the reaction with respect to Cl2 is b=1
Total order of the reaction is 2
c
rate constant of the reaction is k= 1.3*(10-28)
d
given
[CO]=0.44M
[Cl2]=0.0155
rate of reaction at this concentrations is r=8.866*(10-30)
I need help as soon as possible please 1. Phosgene forms from carbon monoxide and chlorine according to the follow...
Phosgene (COCl2) is a toxic substance that forms readily from carbon monoxide and chlorine at elevated temperatures: CO(g) + Cl2(g) ⇌ COCl2(g) If 0.390 mol of each reactant is placed in a 0.500−L flask at 600 K, what are the concentrations of all three substances at equilibrium (Kc = 4.95 at this temperature)? Substance Concentration (M) CO Cl2 COCl2
4. Phosgene (COCI2) is a highly toxic industrial chemical made from carbon monoxide and chlorine gases over a catalyst: CO + Cl2 → COC12. Assume carbon monoxide at 270C at a pressure of 24.6 atm is feeding a continuous reactor at a flow rate of 100.0 L/hour. Chlorine gas is also feeding the same reactor at a flow rate of 164.0 L/hr, at a temperature of 7 °C and a pressure of 21.0 atm. Assuming ideal gas behavior and complete...
c) The standard enthalpies of formation and molar entropies of phosgene, carbon monoxide, and chlorine are COCl2(g): ΔfH° = -220.08 kJ mol-1; S° = 283.8 J mol-1 K-1 CO(g): ΔfH° = -110.53 kJ mol-1; S° = 197.66 J mol-1 K-1 Cl2(g): ΔfH° = 0 kJ mol-1; S° = 223.08 J mol-1 K-1 i) Determine the reaction Gibbs energy for the decomposition of phosgene at 298 K. Is this reaction spontaneous at this temperature? [25 marks] ii) At what temperature does...
Phosgene can dissociate into carbon monoxide and chlorine COC2g)CO Cl2(g) At 600 °C, the equilibrium constant in terms of pressures, Kp, for this dissociation reaction is 5.00. (a) If 11.56 g of phosgene is placed in a 17.60-L vessel and heated to 600 °C, what is the partial pressure of carbon monoxide when equilibrium is attained? atm (b) What fraction of phosgene is dissociated at equilibrium?
ANSWER AS SOON AS POSSIBLE 4 10 6 points Phosgene COCl2 dissociates as follows: COC12(g) <======== CO (g) + Cl2(g). At 720 °C the Kc value is 3.63 X 10 -3. Find the percentage of phosgene that dissociates at this temperature when 8.88 mol of phosgene is placed in a 25.1 L vessel. Type your answer... 5 1 point Consider this reaction at equilibrium: 2H2O2(g) 2H2O(g) + O2(g); AH=-210 kJ/mol. If the volume of the system is expanded at constant...
The following initial rate data are for the reaction for the formation of phosgene from carbon monoxide and chlorine: co + Cl2 — COCI Experiment [CO],, M 4.07 4.07 8.14 8.14 (Cl2lo, M 6.47x10-2 0.129 6.47x10-2 0.129 Initial Rate, Ms1 3.74x10-29 7.46x10-29 7.48*10-29 1.49x10-28 Complete the rate law for this reaction in the box below. Use the form k[A]"[B]", where 'l' is understood for mor n and concentrations taken to the zero power do not appear. Don't enter 1 for...
answer all questions for rating. 1. Part A Phosgene (carbonyl chloride), COCl2, is an extremely toxic gas that is used in manufacturing certain dyes and plastics. Phosgene can be produced by reacting carbon monoxide and chlorine gas at high temperatures: CO(g)+Cl2(g)⇌COCl2(g) Carbon monoxide and chlorine gas are allowed to react in a sealed vessel at 453 ∘C . At equilibrium, the concentrations were measured and the following results obtained: Gas Partial Pressure (atm) CO 0.800 Cl2 1.24 COCl2 0.240 What...
At 373 K, the following reaction has an equilibrium constant, K = 1.2 x10-2 COCl2 (s) ↔ CO (g) + Cl2 (g) If 1.00 mol of phosgene, COCl2 , is placed in a 10.0 L flask, calculate the concentration of carbon monoxide, CO, at equilibrium.
E I 12.) Consider 1.80 mol of carbon monoxide and 3.10 mol of chlorine sealed in a 5.00 L container at 476 oC. The equilibrium constant, Kc, is 2.50 (in M-1) for CO(g) + Cl2(g) ↔ COCl2(g) Calculate the equilibrium molar concentration of CO. Hint, you need to find the equilibrium concentrations of all the gases. Note, that only one of the solutions to the quadratic equation makes sense (the other gives at least one negative concentration).
4. The rate of the reaction between hemoglobin (Hb) and carbon monoxide (CO) was studied at 20°C. The following data were collected with all concentration units in umol/L. Note that a hemoglobin concentration of 2.21 umol/L is equal to 2.21 x 10 mol/L. Initial Hb Concentration Initial CO Concentration Initial Rate (umol/L) (umol/L) (umol/L-s) 2.21 1.00 0.619 1.24 4.42 3.00 3.71 3.36 2.40 4.42 100 a. Determine the order of the reaction with respect to hemoglobin and carbon monoxide. b....