The overall order is the sum of order of both the reactant. Since the overall order is two,& order wrt A is also two, the order wrt B is therefore zero. Therefore Ans A ]
K [A]2[B]
For a reaction 2A + 2B rightarrow C, the order with respect to A is 2...
The rate constant for the first-order decomposition of a compound A in the reaction 2A rightarrow P is k = 3.6 times 10^-7 s^-1 at 25 degree C. What is the half-life of A? What will be the pressure, initially 33 kPa, at 50s, 20 min after initiation of the reaction?
The reaction 2A + 3B → C is first order with respect to A and B. When the initial concentrations are [A] 1.55 x 10 2 M and [B] 2.11 × 10-3 M, the rate is 2.65 x 10 4 M. Calculate the rate constant or the reaction. Enter your answer in scientific notation. 10 O M ● M-1 M1.s1
3. A reaction 2A 2B + C is known to follow second-order kinetics, with k = 7.20x10*M's' at 25.0 °C. (20 points) During one experiment, the initial concentration of A is [A]. = 0.120 M (a) Calculate the half-life (1,2), in hours, for this experiment. (b) Calculate the initial reaction rate (in M/s) for this reaction (4 points) (c) How long will it take (in hours) for the concentration of C to reach [C] = 0.0540 M (6 points) (d)...
Consider the reaction: 3A + 2B ---> 2C + D Run [A] [B] Rate (M/ms) 1 100 100 6.00E+3 2 200 300 144.00E+3 3 100 200 12E+3 Determine the rate expression and overall order for the above reaction. Order with respect to B, given that A is constant should be 1 as doubling the concentration of B (runs 1 and 3) results in a doubling of the rate. Order with respect to A should be 2 as the reaction rate...
For the hypothetical reaction 2A + B --> 3C + D, the rate was determined to be: rate = k[A]3[B]1. What is the order of reaction with respect to A? _______ with respect to B? _______ What is the overall order of the reaction? __________
Given the following proposed mechanism, predict the rate law for the overall reaction. A_2 + 2B rightarrow 2AB (overall reaction) A) Rate = k[A][B] B) Rate = k[A_2][B] C) Rate = k[A_2][B]^1/2 D) Rate = k[A_2] E) Rate = k[A_2]^1, 2 [B]
Done Problem 1. Consider the general reaction 2A+2B+C D+3E And answer the following questions using the data given in the table below. a) What is the reaction order with respect to each reactant? b) Calculate the rate constant c) write the rate law for this reaction. d) Express the rate in terms of changes in concentration with time for each of the components Initial Rate 1 0180:101 076 05 0.990 0.990 0.270 0.620 0.620 0050 0410 0.940 0.040 Done Problem...
Be sure to answer all parts. The reaction 2A rightarrow B is second order in A with a rate constant of 32.1 M^-1 s^-1 at 25 degree C. Starting with [A]0 = 0.00779 M, how long will it take for the concentration of A to drop to 0.001803M? s Calculate the half-life of the reaction for [A]_0 = 0.00779 M. s Calculate the half-life of the reaction for [A)0 = 0.00269 M.
The reaction 2A + 2B → M + N has the rate law: Rate = k[A]2. At 25°C, k = 0.0311 L mol-1 s-1. If the initial concentrations of A and B are 0.321 M and 0.499 M, respectively. What will be the concentrations of A and B after 30.0 minutes?
Use the following data to determine the order of reaction with respect to each reactant and the overall order: A + 5B + 6C + 3D + 3E Experiment [A] (M) [B] (M) [C] (M) -4 1 0.35 0.35 0.35 2 0.70 0.35 0.35 Initial Rate (M/s) 8.0 x 10 3.2 x 10-3 6.4 x 10-3 3.2 x 10-3 3 0.70 0.70 0.35 4 0.70 0.35 0.70 1) Order with respect to A = 2) Order with respect to B...