For A - products, time and concentration data were collected and plotted as shown. [A] (M)...
For A - products, time and concentration data were collected and plotted as shown. 1/[A] [A] (M) t(s) 0.600 00.0 0.484 30.0 In[A] 0.405 60.0 0.349 90.0 Determine the reaction order, the rate constant, and the units of the rate constant. order units
For A - products, time and concentration data were collected and plotted as shown. [A] (M) 0.750 0.596 00.0 30.0 In[A] 1/A) 0.473 60.0 0.376 90.0 Determine the reaction order, the rate constant, and the units of the rate constant. order = units 0.473 60.0 0.376 90.0 Determine the reaction order, the rate constant, and the units of the rate constant. order- order units *=
For A → products, time and concentration data were collected and plotted as shown. | t(s) [A] (M) 0.700 00.0 0.662 30.0 1 [A] In[A] 1/[A] 0.624 60.0 0.586 90.0 Determine the reaction order, the rate constant, and the units of the rate constant. order = units k = M-1.5-1
or A yields products, time and concentration data were collected and plotted as shown here. [A](M): 0.800, 0.740, 0.680, 0.620 t(s): 0.0,30.0, 60.0, 90.0 Determine the reaction order, the rate constant, and the units of the rate constant. Order=? K= ? and units Comment
For A → products, time and concentration data were collected and plotted as shown here. [A] (M) t (s) 0.500 0.0 0.319 30.0 0.203 60.0 0.130 90.0 In[A] 1/[A] Determine the reaction order, the rate constant, and the units of the rate constant. Number Number Units order1 M. s1 Incorrect For a reaction order of 1, the proper integrated rate equation is In[A]--kt+ In[A]o where [Alo = 0.500 M. A can be any of the other concentration values, so long...
For A → products, time and concentration data were collected and plotted as shown here. 0.750 0.0 0.596 30.0 0.473 60.0 0.376 90.0 In[A] 1IA] Determine the reaction order, the rate constant, and the units of the rate constant. Number Number Units order = 111
For the reaction A - products, concentration and time data were collected. Enter these data into the graphing tool to determine the reaction order. 1 (s) 0.0 [A] (M) 3.40 2.28 25.0 50.0 1.53 1.02 75.0 Graphing Tool Clear Allota Calculate the concentration of A after 99.0 s. [A]99.0 = 0.431 M
For the reaction A⟶products, concentration and time data were collected. Enter these data into the graphing tool and determine the value and units of the rate constant, k, for this reaction. t (min) [A] (M) 0.0 1.00 1.0 0.66 2.0 0.43 3.0 0.28 Graphing Tool A graphing tool to enter and plot kinetics data. A table with 4 columns labeled t, [A], ln[A], and 1/[A]. A graph with options to plot [A] vs. t, ln[A] vs. t, or 1/[A] vs....
Use the energy diagrams of the two reactions to answer the questions. Reaction A Reaction B Energy HHHH! (kJ/mol Energy 100 (kJ/mol) 50 Reaction progress Reaction progress What is the change in energy for reaction A? What is the change in energy for reaction B? AEX = kJ/mol AE/x = kJ/mol What is the activation energy for reaction A? What is the activation energy for reaction B? E = kJ/mol E.= kJ/mol Question 2 of 20 > For the reaction...
The concentration of reactant A (in M) in a reaction of A → products was monitored as a function of time. The experimental data were plotted in three graphs of [A] versus time, ln[A] versus time, and 1/[A] versus time as shown. Determine the reaction order. Reaction order graph Not enough information to determine the reaction order. Zero order First order Second order Not enough information to determine the reaction order. 0.8 0.6 0.4 0.2 3 -2 0 2 46...