13.13 The rate law for the reaction NH+ (aq) + NO3(aq) = N2(g) + 2H2O(1) is given by rate = k [NH 1 [NO2). At 25°C,...
The rate law for the reaction NH4+(aq) + NO2−(aq) → N2(g) + 2H2O(l) is given by rate = k[NH4+][NO2−]. At a certain temperature, the rate constant is 3.80 × 10−4 /M·s. Calculate the rate of the reaction at that temperature if [NH4+] = 0.261 M and [NO2−] = 0.160 M. × 10 M/s Enter your answer in scientific notation.
GIVEN THE FOLLOWING DATA FOR THIS REACTION: NH4+(aq) + NO2-(aq) ---> N2(g) + 2H2O(l) EXPT NH4+ NO2- RATE 1 0.010 M 0.020 M 0.020 M/s 2 0.015 M 0.020 M 0.030 M/s 3 0.010 M 0.010 M 0.005 M/s a. Calculate the order of reaction with respect to NH4+ b. Calculate the order of reaction with respect to NO2- c. Calculate the rate constant k d. Determine the overall order of reaction e. Determine the rate law
SECTION B (Open ended) 1. Given the following data for this reaction: NH" (B) + NO2 aa = N2 + 2H2O) EXPT INHE'] [NO:') RATE 0.010 M 0.015 M 0.010 M 0.020 M 0.020 M 0.010 M 0.020 M/s 0.030 M/s 0.005 M/s (a) Calculate the order of reaction with respect to NH. (4 points) (b) Calculate the order of reaction with respect to NO3' (4 points) (c) Calculate the rate constant k (4 points) (d) Determine the overall order...
Ammonium ion reacts slowly with nitrite ion: NH4+ (aq) + NO2(aq) → N2(g) + 2H20(1) Rate data for this reaction, measured at a certain temperature, are as follows: Expt. (NH4+] (M) [NO2] (M) Rate (M sł) 1 0.100 0 .220 6.00 x 106 0.400 0.220 2.40 x 105 3 0.400 0.110 1.20 x 105 (a) Determine the rate law for the reaction. Enter your result in the equation below, by putting the appropriate exponent next to each species. (Enter O...
Consider the reaction of ammonium ions (NH and nitrite ions (NO2), shown in Equation 1. NH (aq) +NO2 (aq)N2 (g +2H O 0) Solutions of NH4 and NO2 were mixed in various quantities and the following rate data were obtained at a constant temperature: Experiment Initial [NH4 Initial [NO2] Initial rate for formation of N2 moVL s 3.04 x 10 6.08 x 10 1.22 x 10 0.1507.50 x 10 0.1501.50 102 0.300 1.50x 10 1. Find the order of the...
The rate law for the reaction 2H2(g) + 2NO(g) ----> N2(g) + 2H2O(g) is rate=k[H2][NO]2. What is the rate constant at 800 degrees C when [NO] = 0.050 M and [H2] = 0.010 M and the rate of the reaction is 1.5 M/s
Ammonium ion reacts slowly with nitrite ion: NH4+ (aq) + NO2(aq) + N2(g) + 2H20(1) Rate data for this reaction, measured at a certain temperature, are as follows: Expt. (NH4+] (M) [NO] (M) Rate (MSP) 1 10.1200 .300 5.20 x 106 2 0.480 0.300 2.08 x 105 3 0.480 0.150 1.04 x 105 (a) Determine the rate law for the reaction. Enter your result in the equation below, by putting the appropriate exponent next to each species. (Enter of the...
Initial rate data are listed in the table for the reaction: NH4+ (aq) + NO2 (aq) + N2(g) + H20 (1) Experiment (NH4+) (NO2). Initial rate (m/s) AWN + 0.24 0.10 0.12 0.10 0.120.15 0.12 0.12 7.2 x 10-4 3.6 x 104 5.4 x 10-4 4.3 x 10-4 First determine the rate law and rate constant. Under the same initial conditions as in Experiment 4, calculate [NH4+) at 114 seconds after the start of the reaction. In this experiment, both...
The following reaction is first order in N2O5N2O5: N2O5(g)→NO3(g)+NO2(g)N2O5(g)→NO3(g)+NO2(g) The rate constant for the reaction at a certain temperature is 0.053/s/s. Part A Calculate the rate of the reaction when [N2O5]=[N2O5]= 5.1×10−2 MM. Express your answer using two significant figures. rate= ______ M/s Part B What would the rate of the reaction be at the same concentration as in Part A if the reaction were second order? (Assume the same numerical value for the rate constant with the appropriate units.)...
Initial rate data are listed in the table for the reaction NH4t (aq)NO2 (aq)N2 (g)H20 () Experiment [NH4+[NO2Initial rate (M/s) 0.10 0.24 7.2 x 104 1 0.10 0.12 3.6 x 104 0.12 0.15 5.4 x 104 0.12 0.12 4.3 x 104 4 First determine the rate law and rate constant Under the same initial conditions as in Experiment 4, calculate [NH4 ] at 368 seconds after the start of the reaction. In this experiment, both reactants are present at the...