Gaseous azomethane, CH3N=NCH3, decomposes in a first-order reaction when heated:
CH3N=NCH3(g) → N2(g) + C2H6(g)
(A) The rate constant for this reaction at 600 K is 0.0216 min-1. If the initial quantity of azomethane in the flask is 4.01 g, what quantity of N2 is formed after 0.0540 hour?
(B) The rate constant for this reaction at 600 K is 0.0216 min-1. If the initial quantity of azomethane in the flask is 4.01 g, what quantity of N2 is formed after 0.0540 hour?
Gaseous azomethane, CH3N=NCH3, decomposes in a first-order reaction when heated: CH3N=NCH3(g) → N2(g) + C2H6(g) (A)...
Gaseous azomethane, CH3N=NCH3 , decomposes in a first-order reaction when heated: CH3N=NCH3(g) ---->N2 (g) + C2H6 (g) The rate constant for this reaction at 600 K is 0.0216 . a. If the initial quantity of azomethane in the flask is 4.64 g, how much remains after 0.0510 hour? b. how many grams of N2?
Gaseous NO2 decomposes when heated: 2 NO2 (g) → 2 NO (g) + O2 (g) The disappearance of NO2 is a first-order reaction with k = 3.6 x 10-3 s-1 at 300 ºC. If a sample of gaseous NO2 is placed in a flask and heated at 300 ºC for 150 s, what fraction of the initial sample remains after this time?
first order reaction First-Order Reactions (35) Azomethane decomposes into nitrogen and ethane at high temperatures according to the following equation: (CH3)2N2(g) — N2(g) + C2H6(g) The following data are obtained in an experiment: Time (h) [(CH3)2N2] 1.00 0.905 2.00 0.741 3.00 0.607 4.00 0.497 (a) By plotting the data, show that the reaction is first-order. (b) From the graph, determine k. (c) Using k, find the time in hours) that it takes decrease the concentration to 0.100 M. (d) Calculate...
1a. Hydrogen iodide decomposes when heated, forming H2 (g) and I2 (g). The rate law for this reaction is -delta[HI]/delta t = k[HI]^2. At 443 °C, k=30.L/molxmin. If the initial HI (g) concentration is 5.5x10^-2 mol/L, what concentration of HI (g) will remain after 10. minutes? Concentration = ____ mol/L 1b. The decomposition of SO2Cl2 SO2Cl2 (g) ----> SO2 (g) + Cl2 (g) is first-order in SO2Cl2, and the reaction has a half-life of 245 minutes at 600 K. If...
1a. At 573 K, gaseous NO2 decomposes, forming NO(g) and O2. If a vessel containing NO2(g) has an initial concentration of 0.056 mol/L, how long will it take for 75% of the NO2(g) to decompose? The decomposition of NO2(g) is second-order in the reactant, and the rate constant for this reaction, at 573 K, is 1.1 L/mol · s. = ___ s 1b. The decomposition of ammonia on a metal surface to form N2 and H2 is a zero-order reaction....
The first-order rate constant for the decomposition of CH3N2CH3, CH3N2CH3(g) C2H6(g) + N2(g) at 327 oC is k = 3.60e-04 s-1. Suppose we start with 0.0505 mol of CH3N2CH3 in a volume of 3.7 L. How many moles of CH3N2CH3 will remain after 3.76e+01 min? a) 0.0224 moles will remain. b) 0.000684 moles will remain. c) 1.60e-96 moles will remain. d) 0.0498 moles will remain. e) 0.0254 moles will remain.
When heated, colorless dinitrogen tetraoxide, N2O4(g), decomposes into red-brown nitrogen dioxide, NO2(g), according to the following reaction: N204 (g) + 2 NO2 (g) Suppose that 2.00 mol of N204(g) was placed into an empty 5.00-L flask and heated to 407 K. When equilibrium was attained, the concentration of red-brown NO2(g) was found to be 0.525 M. Calculate the equilibrium constant, K, for this reaction at 407 K. 3.80 2.00 0.500 0.263 0.525
When heated, colorless dinitrogen tetraoxide, N204(8), decomposes into red-brown nitrogen dioxide, NO2(g), according to the following reaction: N204(g) 42 NO2 (g) Suppose that 2.00 mol of N204(8) was placed into an empty 5.00-L flask and heated to 407 K. When equilibrium was attained, the concentration of red-brown NO2(g) was found to be 0.525 M. Calculate the equilibrium constant, K., for this reaction at 407 K. 0.500 O 0.525 2.00 0.263 3.80
What is the order and the rate constant for the reaction: C2H40 (g) CH4 (g) + CO (g) given the data: (C2H40] t(min) 0.0860 0 0.0465 50 0.0355 72 0.0274 93 0.0174 130 The compound SO2Cl2 decomposes in a first order reaction SO2Cl2(g) → SO2 (g) + Cl2 (g) that has a half life of 4.47 x 104 at 600 K. If the reaction is begun with 1.6 * 10-3 mol of pure SO2Cl2 in a 2.0L flask, at what...
Sulfuryl chloride, , decomposes when heated. In an experiment, the initial concentration of sulfuryl chloride was 2.11*10^-2 mol/L. If the rate constant is 2.2*1-^-5 /s, what is the concentration of sulfuryl chloride after 3.0 hr? The reaction is first order.