this is first order reaction :
rate constant k = 1/t ln (Ao / At)
= 1 / 30 ln (0.5 / 0.319)
rate constant k = 0.0150 s-1
units = s-1
For A → products, time and concentration data were collected and plotted as shown here. [A]...
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 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. [A] (M) t(s) 0.900 00.0 30.0 0.474 In[A] (A) 1/[A] 0.321 60.0 0.243 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. 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. | 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 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....
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
ing Integrated Rate Laws < 10 of 11 > Review Constants Periodic Table ne integrated rate laws for zero, first- and second-order eaction may be arranged such that they resemble the equation or a straight line, ymr + b Part A Order 0 Integrated Rate Law Graph Slope [A] = - kt +(Alo (A) vs. t -k In A-kt+In Al In A vs. t -k Avst k 1 The reactant concentration in a zero order reaction was 8.00-10-2 Mafter 160...
The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they resemble the equation for a straight line, y=mx+by=mx+b. Order Integrated Rate Law Graph Slope 0 [A]=−kt+[A]0[A]=−kt+[A]0 [A] vs. t[A] vs. t −k 1 ln[A]=−kt+ln[A]0ln[A]=−kt+ln[A]0 ln[A] vs. tln[A] vs. t −k 2 1[A]= kt+1[A]01[A]= kt+1[A]0 1[A] vs. t1[A] vs. t k Part A The reactant concentration in a zero-order reaction was 8.00×10−2 MM after 130 ss and 4.00×10−2 MM after 380 ss . What is...