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[14.117] The rate of the reaction 4 PH3() → P4(3) + 6 H2(8) was studied by...
Consider the reaction 4 PH3(g) → P4(g) + 6 H2(g). If, in a certain experiment, over a specific time period, 0.0045 mole of PH3 is consumed in a 1.7-L container during each second of the reaction, what are the rates of production of P4 and H2 in this experiment? P4 mol L−1 s−1 H2 mol L−1 s−1
The gas phase decomposition of phosphine at 120 °C PH3(g)1/4 P4(g) + 3/2 H2(g) is first order in PH3 with a rate constant of 1.80×10-2 s-1. If the initial concentration of PH3 is 5.86×10-2 M, the concentration of PH3 will be 1.43×10-2 M after s have passed.
The decomposition of phosphine, PH3, follows first-order kinetics: 4 PH3(g) → P4(g) + 6 H2(g) Calculate the activation energy, Eq, in kJ/mol for the reaction, given that the rate constant k (at 25 °C) = 0.00852 s 1 and k (at 50 °C) = 0.756 s 1. 231 kJ/mol 144 kJ/mol O 56.5 kJ/mol О 99.3 kJ/mol O 111 kJ/mol
For the gas phase decomposition of phosphine at 120 °C 4 PH3(g)P4(g) + 6 H2(g) the average rate of disappearance of PH3 over the time period from t = 0 s to t = 27 s is found to be 2.63×10-4 M s-1. The average rate of formation of H2 over the same time period is________ M s-1.
13.20 The following gas-phase reaction was studied at 290°C by observing the change in pressure as a function of time in a constant-volume vessel: CICO,CC13(8) — 2COC12(8) Determine the order of the reaction and the rate con- stant based on the following data: Time (s) P (mmHg) 0 181 513 1164 15.76 18.88 22.79 27.08 where P is the total pressure.
6) The following gas-phase reaction was studied at 290°C by observing the change in pressure as a function of time in a constant-volume vessel: Determine the order of the reaction and the rate constant based on the following data: Time (s) Partial Pressure of CICO CCls (mmHg) 181 513 1164 15.76 12.64 8.73 4.44
4) The following gas-phase reaction was studied at 290 C by observing the change in pressure as a function of time in a constant-volume vessel: ClC02CCI3(g)-→ 2C0C12(g) Determine the order of the reaction and the rate constant based on the following data: Time (s) Partial Pressure of CICO2CCl3 (mmHg) 181 513 1164 15.76 12.64 8.73 4.44
The rate constant for the gaseous reaction H2(g) + I2(g) → 2HI(g) is 2.42 × 10−2/(M·s) at 400°C. Initially an equimolar sample of H2 and I2 is placed in a vessel at 400°C and the total pressure is 1690 mmHg. (a) What is the initial rate (M·min) of formation of HI? (__________) (b) What are the rate of formation of HI and the concentration of HI (in molarity) after 13.4 min? Rate of formation = (_______) (c) [HI] = (_______)...
The decomposition reaction: 2N2O5 (g) --> 4 NO2 (g) + O2 (g) has a rate constant kr = 0.1217 hr^–1 A reaction vessel of fixed volume is first evacuated and then filled with N2O5 to an initial pressure of 1.00 atm. The decomposition reaction is then initiated. (a) What are the partial pressures of each of the three gases in the reaction vessel when the total pressure is 1.30 atm? (b) At what time would you expect the total pressure...
1) The rate constant for the reaction 2 N,Os(9) = 4 NO (9) + O2(9) is reported in units of sl. What is the overall order of the reaction? 2) The rate law for a reaction was reported as rate=k[A] [B][C] with molar concentrations in moles per cubic decimetre and time in seconds. What are the units of k? 3) The rate constant for the pseudo first-order acid- catalysed hydrolysis of glucose is 4.07' 10-s. Calculate the half-life for the...