using the graph to determine the order.
then using the formula for 1st order integral rate law equation to find all.
The data below were collected for the following reaction at 500 °C: CH, CN(9) + CH3NC(9)...
The data below were collected for the following reaction at 500 ∘C: CH3CN(g)→CH3NC(g) Time (h) [CH3CN] (M) 0.0 1.000 5.0 0.794 10.0 0.631 15.0 0.501 20.0 0.398 25.0 0.316 Determine the order of the reaction at this temperature. What is the half-life for this reaction (at the initial concentration)? How long will it take for 80% of the CH3CN to convert to CH3NC?
Review Constants Periodic Table Part A The rearrangement of methyl isonitrile (CH3NC) to acetonitrile (CH CN) is a first-order reaction and has a rate constant of 5.11x105 s at 472 K Assume the initial concentration of CHs NC to be 3.80x10-2 M What is the half-life (in hours) of this reaction? hours to three significant figures. Express the time t1/23,77 hr You may want to reference (Pages 510 513) Section 13.6 while completing this problem. Submit Previous Answers Correct Since...
MISSED THIS? Read Section 15.5 (Page). The data shown below were collected for the following second-order reaction: CI(9) + H2(g) → HCI(g) + Hg) Temperature (K) Rate Constant (L/mol. s) 0.00357 100 0.0773 110 0.956 120 7.781 Part A Use an Arrhenius plot to determine the activation barrier for the reaction. I AM O O ? E- kJ/mol Submit Request Answer Part B Use an Arrhenius plot to determine the frequency factor for the reaction. O A ¢ A O...
Review Constants Pe Consider the following reaction: 2H,8(g) + S0 (9) 3S(x) + 2H20(9) A reaction mixture initially containing 0.490 MH,S and 0 490 M SO, was found to contain 1.1x10-3 MH,O at a certain temperature. A second reaction mixture at the same temperature initially contains (H S = 0.260 M and (SO2] = 0.315 M Part A Calculate the equilibrium concentration of H2O in the second mixture at this temperature. Express your answer using two significant figures. VO AE...
please do all Part A Determine AG for the following reaction: 2NO(g) + O2(g)–N,04(9) Use the following reactions with known A Grxu values. N,O.(g)-2NO(9). AGRX = 2.8 kJ NO(9)+02 (9) NO2(g), AGpx = - 36,3 kJ Express your answer using one decimal place. VACAO 2 ? AGE Submit Request Answer Part A Calculate A Gin for the following reaction: 4CO (9) + 2NO2(9) 4CO2 (9) + N2 (9) Use the following reactions and given AG x values: 2NO(g) + O2(g)...