The following data were collected for a phosphorescent paint being proposed for use in coating hi...
he following data were collected for a phosphorescent paint being proposed for use in coating highways Time Intensity (s) (lux) 10 20 30 40 50 60 70 80 90 100 1581 821 426 115 60 31 16 8 4 Using the information in the table, produce a graph of the phosphorescent decay In (intensity intensity (lux) 1500 1500 1000 1000 500 500 20 40 80 100 20 40 60 80 100 time (s) time (s) intensity (lux) intensity (lux) 1500...
The following data were collected for a phosphorescent paint being proposed for use in coating highways. Time (s) Intensity (lux) 10 1492 20 729 30 356 40 174 50 85 60 42 70 20 80 10 90 5 100 2 Calculate the half-life for the paint. s What is the intensity of the light at the 2nd half-life? lux What is the intensity of the light at the 3rd half-life? lux
The following data were collected for a phosphorescent paint being proposed for use in coating highways. Time (s) Intensity (lux) 10 1574 20 812 30 419 40 216 50 111 60 57 70 30 80 15 90 8 100 4 Calculate the half-life for the paint. __________________ s What is the intensity of the light at the 2nd half-life? ____________________________ lux What is the intensity of the light at the 3rd half-life? _________________________lux
Calculate the half-life of the paint (in seconds). What is the intensity of the light at the 2nd half-life? What is the intensity of the light at the 3rd half-life? The following data were collected for a phosphorescent paint being proposed for use in coating highways. Time Intensity (s) (lux) 10 1528 20 768 386 194 97 49 25 12 6 30 40 50 60 70 80 90 100
The graph below shows theoretical data for the reaction you've performed (blue data) based on measured rate constants. From this graph, what is the half life of t-butyl chloride in solution? Hydrolysis of t-butyl chloride 120 _1st order exp. decay. _ Steady State Assumption 100 80 60 40 20 30 10 20 Time (sec) Hydrolysis of t-butyl chloride 120 _1st order exp. decay. _ Steady State Assumption 100 80 60 40 20 30 10 20 Time (sec)
1. the following data was collected for the decomposition of chlorine monoxide into chlorine and oxygen at 25 degree Celsius:(show your works) time (s) 0 10 20 30 40 100 200 ClO (M) 15.0 7.01 4.76 3.52 2.71 1.20 0.65 a. create and attach three seperate plots using this data and the integrated form of the rate law for a 0th, 1st, and 2nd order reaction? b. what is the order of this decomposition reaction? c. determine the rate law...
please explain how correctly fill in table 3 based on data from table 1. Table I: Largest half-life nucleus Time, t(s) N Time, t(s) N Time, t(s) N 0 36 204 72 4 40 76 8 44 80 12 48 84 400 369 334 308 2.91 270 249 1237 219 16 90 85 77 72 67 61 57 54 52 88 6 20 152 137 123 114 107 99 56 24 92 96 60 28 64 100 32 68 Table...
The following data were collected in two studies of the reaction below. A + 2B → C + D Time(s) Experiment #1 [A] (M) Experiment #2 [A] (M) 0 10.0 x 10-2 10.0 x 10-2 20 6.67 x 10-2 5.00 x 10-2 40 5.00 x 10-2 3.33 x 10-2 60 4.00 x 10-2 2.50 x 10-2 80 3.33 x 10-2 2.00 x 10-2 100 2.86 x 10-2 1.67 x 10-2 120 2.50 x 10-2 1.43 x 10-2 In Experiment #1,...
Use the following information to answer the next question While studying a radioactive phosphorous 34 p, it was discovered that a 128 g sample had decayed to 4.48 g after 60 seconds. The following table provides data corresponding to the decay. Mass (g) 128.0 4.48 73.0 41.9 23.9 7.80 Time (S) 60 0 50 10 20 1. Complete the following: Provide a graph of the data provided Determine the half-life of the radioactive phosphorous using the graph or other appropriate...
and if you could show how you calculated the slope please Use the following information to answer the next question While studying a radioactive phosphorous P, it was discovered that a 128 g sample had decayed to 4.48 g after 60 seconds. The following table provides data corresponding to the decay. 128.0 73.0 41.9 23.9 13.7 7.80 4.48 0 10 20 30 40 50 60 1. Complete the following: Provide a graph of the data provided Determine the half-life of...