A project has four activities (A, B, C, and D) that must be performed sequentially The probability distributions for the time required to complete each of the activities are as follows Activity Activity Time (weeks) Probability A 6 0 32 7 0 33 8 0 27 9 0 08 B 5 0 17 7 0 54 9 0 29 C 8 0 05 10 0 23 12 0 35 14 0 21 16 0 16 D 6 0 64 8 0 36 Provide the base case, worst case, and best case calculations for the time to complete the project Activity Base case Worst case Best case A fill in the blank 1 weeks fill in the blank 2 weeks fill in the blank 3 weeks B fill in the blank 4 weeks fill in the blank 5 weeks fill in the blank 6 weeks C fill in the blank 7 weeks fill in the blank 8 weeks fill in the blank 9 weeks D fill in the blank 10 weeks fill in the blank 11 weeks fill in the blank 12 weeks Total fill in the blank 13 weeks fill in the blank 14 weeks fill in the blank 15 weeks Use the random numbers 0 5512, 0 7087, 0 4633 and 0 5995 to simulate the completion time of the project in weeks Activity Random Number Completion Time A 0 5512 fill in the blank 16 weeks B 0 7087 fill in the blank 17 weeks C 0 4633 fill in the blank 18 weeks D 0 5995 fill in the blank 19 weeks Total fill in the blank 20 weeks Discuss how simulation could be used to estimate the probability that the project can be completed in weeks or less Simulation provides a distribution of project completion times The mean or percentage of times weeks and under can be used to estimate the probability that the project will be completed within weeks

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Question: A project has four activities (A, B, C, and D) that must be performed sequentially. The probability distributions for the time required to complete each

A project has four activities (A, B, C, and D) that must be performed sequentially. The probability distributions for the time required to complete each of the activities are as follows:

Activity	Activity Time (weeks)	Probability
A	6	0.32
	7	0.33
	8	0.27
	9	0.08

B	5	0.17
	7	0.54
	9	0.29

C	8	0.05
	10	0.23
	12	0.35
	14	0.21
	16	0.16

D	6	0.64
	8	0.36

Provide the base-case, worst-case, and best-case calculations for the time to complete the project.

Activity	Base case	Worst case	Best case
A	fill in the blank 1 weeks	fill in the blank 2 weeks	fill in the blank 3 weeks
B	fill in the blank 4 weeks	fill in the blank 5 weeks	fill in the blank 6 weeks
C	fill in the blank 7 weeks	fill in the blank 8 weeks	fill in the blank 9 weeks
D	fill in the blank 10 weeks	fill in the blank 11 weeks	fill in the blank 12 weeks
Total	fill in the blank 13 weeks	fill in the blank 14 weeks	fill in the blank 15 weeks

Use the random numbers 0.5512, 0.7087, 0.4633 and 0.5995 to simulate the completion time of the project in weeks.

Activity	Random Number	Completion Time
A	0.5512	fill in the blank 16 weeks
B	0.7087	fill in the blank 17 weeks
C	0.4633	fill in the blank 18 weeks
D	0.5995	fill in the blank 19 weeks
Total		fill in the blank 20 weeks

Discuss how simulation could be used to estimate the probability that the project can be completed in weeks or less. Simulation provides a distribution of project completion times. The
mean or percentage
of times weeks and under can be used to estimate the probability that the project will be completed within weeks.

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