The liquid-phase irreversible reaction A→ B+Cis carried out in a CSTR. To learn the rate law, the volumetric flow rate, v0, (hence T= V/vo)is varied and the effluent concentrations of species A are recorded as a function of the space time t. Pure A enters the reactor at a concentration of 2 mol/dm^3. Steady-state conditions exist when the measurements are recorded. Run 1 2 3 4 5τ(min) 15 38 100 300 1200CA(mol/dm^3) 1.5 1.25 1.0 0.75 0.5a. Determine the reaction order and specific reaction rate constant. b. If you were to repeat this experiment to determine the kinetics, what would you do differently? Would you run at a higher, lower, or the same temperature? If you were to take more data, where would you place the measurements (e. g., T)? c. It is believed that the technician may have made a dilution factor-of-10 error in one of the concentration measurements. What do you think? How do your answers compare using regression (Polymath or other software) with those obtained by graphical methods?
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Ionic compounds are made of ions, and yet the overall charge of an ionic compound is neutral. why?
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Observation and experimentation have led many scientists to accept a theory about the origin of the universe. this theory is called the big bang theory. scientific evidence collected and observed by scientists around the world suggests that the universe is ever expanding from a hot and dense initial state. what makes this a scientific theory? (2 points)
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The liquid-phase irreversible reaction A→ B+Cis carried out in a CSTR. To learn the rate law, the vo...
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