Immediate Normal Crash Normal Crash Activity Predecessors Time Time Cost Cost 2000 2400 4500 5000 A 6500 8000 JEWELL 5000 6200 BC 6000 9000 D 5000 6000 Answer the following questions: 1. Draw the AON network for the project. (1 point) 2. Develop a n activity schedule for the project in tabular format (include ES, EF, LS. LF, S, FS) (3 points) 3. What are the critical activities, and what is the normal project completion time? (1 point) 4. How early can you start F? (1 point) 5. How late can you start F without impacting the overall project? (1 point) 6. By how long can you delay E without impacting its immediate successor? (1 point) 7. How early can you finish D? (1 point) 8. How late can you finish B without impacting the overall project? (1 point) . What is the free slack of B? (1 point) 10. Draw the AOA network for the project (3 points) 11. Write a Linear Program for minimizing normal project duration. What is the resulting STORM duration? (1 point) 12. Write a Linear Program for minimizing project duration when all activities are crashed to the maximum. What is the resulting STORM duration? (1 point) 13. Write a Linear program to minimize the cost of the project when the duration is 10. (2 points) 14. Show clearly the sequence of activities that must be crashed to complete the project in 12, 11, 10, 9, 8, and 7 periods. (4 points) 15. What is the optimal project duration if indirect (overhead) project cost accumulates at the rate of $700 per period? (1 point) 16. What is the optimal project duration if indirect (overhead) project cost accumulates at the rate of $1100 per period? (1 point) 17. What is the optimal project duration if indirect (overhead) project cost accumulates at the rate of $2000 per period? (1 point) For questions 1-10 show all work. For questions 11-13 do not attach STORM output; just copy/paste portions of the output as necessary. For question 14 no STORM output is needed; just summarize your findings. For questions 15-17 use excel to show your work and use your findings from Q14