Given the data and information that follows in this example, compute the slope and maximum reduction time for each activity. Also compute the total direct costs for durations 32, 31, 30, 29, 28, and 27 time-units. Assume indirect costs of $170, $150, $129, $122, $118, and $110, respectively, for each listed duration. What are the optimum project duration and cost? Direct costs Maximum Activity ID Normal Crash Slope srash time Time Cost Time Cost 50 70 16 14 15 20 12 4 10 12 8. 21 7. 30 6. 10 19 13 22 12 30 BCPEF

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The 2nd and 3rd decision Exercise 6-2 TIME B TOTAL DIRECT E COST ACTIVITIES CHANGED C TIME B TOTAL DIRECT E COST ACTIVITIES CHANGED F The 4th and 5th decisions TIME TOTAL DIRECT COST ACTIVITIES CHANGE D F TIME D] TOTAL DIRECT E COST ACTIVITIES CHANGED F Project Duration 27 28 29 30 31 32 Total Direct Total Indirect s110 $118 S122 $129 $150 $170 Grand Total

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Crashing - Deciding what to tackle first Given the data and information that follows in this example, compute the slope and maximum reduction time for each activity. Also compute the total direct costs for durations 32, 31, 30, 29, 28, and 27 time-units. Assume indirect costs of $170, $150, $129, $122, $118, and $110, respectively, for each listed duration. What are the optimum project duration and cost? Direct costs Maximum Activity ID Normal Crash crash time Slope Time Cost Time Cost 7 50 70 B 16 14 15 20 12 4 10 12 21 7. 30 E 10 3 19 13 22 12 30 The first decision B TIME 32 LEGEND 16 8. ACT A. DUR E TOTAL DIRECT COST C 12 13 B TIME E TOTAL DIRECT COST F ACTIVITIES CHANGED