Question 13 The following table provides a list of activities in a project, along with their...
A Question 11 The following table provides a list of activities in a project, along with their respective durations and precedence requirements: Immediate Duration Activity Predecessor(s) (weeks) 2 B 3 C B D А E A.C 1 F DE 3 с 3 2 6 G Determine the amount of slack time for Activity E: a. O weeks b. 1 week C. 2 weeks O d. 3 weeks Question 12 Assume that activity A has the following times: Early start time...
Question 14 Assume that activity F has the following times: Early start time (ES) = 7 days Early finish time (EF) = 12 days Latest start time (LS) = 15 days Latest finish time (LF) = 20 days If disaster strikes and activity F will take 20 days to complete rather than the original activity duration (assume that it started at the ES time), by how long will the completion of the project be delayed? O a. 20 days b....
The following table provides a list of activities in a project, along with their respective durations and precedence requirements: Immediate Duration Activity Predecessor(s) (weeks) A 2 3 2 B с D E F 4 A B B с DE E 1 3 G 2 Determine the amount of slack time for Activity E Ola. O weeks b. 1 week c. 2 weeks d. 3 weeks
Consider a project having the following six activities: Immediate Max Crash cost Activity Predecessors Time (weeks) Crash* per week A none 6 6 N/A B none 5 2 $500 C A 3 2 $1000 D A, B 4 2 $2000 E C, D 5 2 $1250 F D 6 2 $1000 *Shortest possible time for the task 1. Draw the project network and list...
Consider the following project activities: Calculate the expected time (te) for each activity. Draw an Activity on Node (AON) diagram to reflect the flow of these activities. Calculate the Early Start (ES), Early Finish (EF), Late Start (LS), and Late Finish (LF) for each activity. Calculate the slack for each activity. Identify all activities on the Critical Path. Use the data to calculate the probability the project will finish in 20 weeks (Hint: z-score). Activity A 8 с D E...
A construction company has a project proposal, which takes 10 activities as follows: Activity Predecessors Activity Duration Time (In DAYS ) Early Start (ES) (In DAYS ) Early Finish (EF) (In DAYS ) Late Start (LS) (In DAYS ) Late Finish (LF) (In DAYS ) SLACK (In DAYS ) A - 14 B - 13 C A 11 D A 15 E B 14 F B 11 G D, E 13 H F 15 J C 12 K G,H 11...
also needs daves latest start and latest finish: Dave Fletcher was able to determine the activity times for constructing his laser scanning machine. Fletcher would like to determine ES, EF, LS, LF, and slack for e activity. The total project completion time and the critical path should also be determined. Here are the activity times: Activity Time (weeks) Immediate Predecessor(s) Activity Time (weeks) Immediate Predecessor(s) C, E D, F Dave's earliest start (ES) and earliest finish (EF) are: Activity ES...
A project manager discovers that his team has neglected to complete the network diagram for the project. the network diagram is shown below. however the project manager has some information available, specifically that each activity a-g, has a different duration between one and seven weeks. also the slack time for each of the activity is known as shown belowDuration (weeks): 1,2,3,4,5,6,7 Slack time (weeks): 0,0,0,1,1,3,7 A D E G B FINISH START C F Using the clues provided below, determine...
Please show me the answer and how to place it on a spreadsheet. Thanks. 13.7 Table EX 13.7 shows the precedence relationships among the activities to complete a project. Table EX 13.7 Activity Predecessor Duration (Weeks) A – 6 B – 2 C A 4 D B 5 E B 2 F C, D 4 G C, D 7 H E, G 5 I F 4 Construct an activity on node network for the project. Identify the paths and path...
for each problem I have this setup so far. I need help on each part and im not too sure if I am on the right track for each question on the picture. this chapter is on project management for statistics 1. A project is shown by the following network. The durations of activities (in weeks) are indicated on the arrows. a. Identify all of the paths, compute the length of each, identify the critical path and the b. Determine...