For zero order reaction rate of the reaction don't depends on
the concentration of reactant.
please help For the following zero order reaction, the rate of reaction is 0.710 M and...
please help
Score: 10/30 0/15 answered Question 6 For the following zero order reaction, the rate constant is 0.0710. If (Al. = 2.37, calculate [A] at 1.56 seconds. 2A + 3B
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The reaction A B +C is zero order with respect to A. When (Alo -0.710 M, the reaction is 30.0 % complete at 72.2 min. Calculate the half-life for this reaction. Enter an integer or decimal number with exactly significant forures more. 1
8.25, calculate [A] at 1.47 seconds. For the following zero order reaction, the rate constant is 0.0489. If [Alo 3A 4 B O 8.865 O 0.193 O 8.322 05.179 08.178 7.678
Please help me find the order or reaction A and B as well as the
rate constant?
Q1: For the reaction: A+B - Products, using different concentrations of A and B the following initial rates were measured: [A], M 0.01 0.02 0.02 [B], M 0.01 0.01 0.02 Initial Rate (M/s) 0.02 0.08 0.11 Experiment # 2 (i) The order of reaction in A is...and in B is.... (ii) The rate constant for the reaction is:
14 of 15 The rate law for the reaction, A+B-C, that is zero order for both reactants is O rate=k O rate=k[A] O rate=k[A][B] O rate=k[C] 15 of 15 For a reaction that is second order in A, calculate the value of the rate law constant using the table below: Experiment Initial [A]/M Initial rate/M s 0.010 0.020 .040 0 win 0.012 .050 0.19 3 0 118 M-18-1 O 126 M-15-1 O 0.40 M-15-1 O 121 M-15-1
A zero-order reaction has a constant rate of 4.80x10-4 M/s. if after 45.0 seconds the concentration has dropped to 5.00x10-2 M, what was the initial concentration?
1. The reaction A → B + C is zero order with respect to A. When [A]0 = 0.544 M, the reaction is 28 % complete at 91.5 min. Calculate the half-life for this reaction. 2. Consider the following reaction. Calculate the value of the rate constant.. 2 A + B →→ 2 C A B C Rate Trial 1 0.64 0.56 0.012 7.463 Trial 2 1.28 0.56 0.012 14.926 Trial 3 0.64 1.12 0.012 14.926 Trial 4 0.1...
For the following second order reaction, the rate of reaction is 0.162 and the [A]o - 9.100. Calculate the 3A + 2B 0.002 0 1.474 0.018 0 0.162 13.415
The following reaction is
first order in N2O5: N2O5(g)→NO3(g)+NO2(g) The rate constant for
the reaction at a certain temperature is 0.053/s. You may want to
reference (Pages 593 - 598) Section 14.4 while completing this
problem. Part A Calculate the rate of the reaction when [N2O5]=
5.7×10−2 M. Express your answer using two significant figures. rate
= nothing M/s Request Answer Part B What would the rate of the
reaction be at the same concentration as in Part A if...
A zero-order reaction A - B, has a rate constant of 0.725 M. s 1. How long will it take for the concentration of A to decrease from 2.00 M to 1.25 M? 0.967 s 1.03 s 0.750 s 0.725 s 0.103 s