Since “B-E-G” takes longest time to complete the project. So, critical path is “B-E-G” . Here, critical path time is 22 weeks.
Activity | Time (weeks) | Predecessors | ES | EF | LS | LF | Slack |
A | 5 | --- | 0 | 5 | 3 | 8 | 3 |
B | 7 | --- | 0 | 7 | 0 | 7 | 0 |
C | 4 | A | 5 | 9 | 8 | 12 | 3 |
D | 3 | A | 5 | 8 | 13 | 16 | 8 |
E | 5 | B | 7 | 12 | 7 | 12 | 0 |
F | 5 | B | 7 | 12 | 11 | 16 | 4 |
G | 10 | C, E | 12 | 22 | 12 | 22 | 0 |
H | 6 | D, F | 12 | 18 | 16 | 22 | 4 |
I need Activity A-H Myo Dave Fletcher was able to determine the activity times for constructing...
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 each activity. The total project completion time and the critical path should also be determined. Here are the activity times: Time Activity (weeks) А 7 Immediate Predecessor(s) Time Activity (weeks) E 3 F 7 G 11 H 8 Immediate Predecessor(s) B B CE D. B с D 2 3 A A Dave's earliest...
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...
PLEASE SOLVE FOR ALL :) determine ES, EF, LS, LF, and slack for each Dave Fletcher was able to determine the activity times for constructing his laser scanning machine. Fletcher would like 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) E 4 A R 6 5 C A G 10 C, E D 1 A H 6 D.F Dave's...
Consider the following project where times are in weeks. Activity Duration Immediate Predecessors A B с D E F G H A.B B A с E,F 8 12 7 4 2 3 7 3 DF a) Determine the activity schedule (ES, EF, LS, and LF) as well as slack using the information from the table above (11 marks) b) Determine all the possible paths of this project and determine the shortest possible time this project can be completed? (4 marks)...
please answer question 3 with complete answers and explanations. Typed only thank you 3) A political campaign manager must coordinate several activities in order to be prepared for an upcoming election. The following table describes the relationships among the activities that need to be completed, as well as the expected activity times. (25 pts) ACTIVITY IMMEDIATE PREDECESSORS EXPECTED TIME (WEEKS) B, C B DE F a) Develop a project network for this problem. b) Determine the ES, EF, LS, LF,...
Question 24 (20 points) Use the following table of related activities with their activity times (weeks). Q24-1) Type your answers by the order of ES, EL, LS, LF, Slack for each activity. For example, A. Х, Х, Х, Х, Х Q24-2) Determine the critical path. Immediate Activity Activity Predecessor Time ESEFLSLqslack (weeks 4 C A DIB E A FIB G C,D H |D,F 7 6 5 4 6 G, H, I J Question 24 (20 points) Use the following table...
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...
question 3.12 Chapter 3 Project Management 91 Table for 3.8 Time Activity Immediate Code Description in hours) Predecesur Planning Find location determine resource requirements Purchasing Requisition of lumber and sand Excavation Planning Dig and grade Sawing Planning Saw lumber inte appropriate sizes Placement Purchasing Position lumber in comect locations Sawing. c om Assembly Nail lamber together Placement Tafill Put sand in and under the equipment Ambly Outfill Put dirt a nd the equipment Assembly Decoration Put grass all over the...
(3) Determine the critical path and critical time of the network shown below. Use the critical path method (the table of ES, EF, etc.). (3) Determine the critical path and critical time of the network shown below. Use the critical path method (the table of ES, EF, etc.). po Problem . Example a 100 For all starting activities, ES is taken as 0. Activities 1-2, 1-3 gets ES of O. Find EF-ES +time. Activity Time ES E F LS L...
A network consists of the following list. Times are given in weeks. Activity Preceding Time (weeks) Activity Predecessor Duration A 4 B 9 C A 5 D B A 3 E D C 4 Calculate the ES, EF, LS, LF, slack for each activity. List the critical activities for this project.