A company is designing a product layout for a new product. It plans to use this production line eight hours a day in order to meet a schedule of 400 units per day. The tasks necessary to produce this product are detailed in table 6 below. Table 6 Task Predecessor Time (seconds) A - 50 B A 36 C - 26 D - 22 E B, D 70 F C, E 30 Draw the network described in the table. Without regard to a production schedule, what is the minimum possible cycle time (in seconds) for this situation; what is the maximum? What is the required cycle time (in seconds) in order to meet the schedule? What is the theoretical minimum number of workstations needed to meet the schedule? Balance this line using longest processing time. Calculate the total idle time. What is the efficiency of the balance obtained in part e?
A company is designing a product layout for a new product. It plans to use this production line eight hours a day in order to meet a schedule of 400 units per day. The tasks necessary to produce this product are detailed in table 6 below. Table 6 Task Predecessor Time (seconds) A - 50 B A 36 C - 26 D - 22 E B, D 70 F C, E 30 Draw the network described in the table. Without regard to a production schedule, what is the minimum possible cycle time (in seconds) for this situation; what is the maximum? What is the required cycle time (in seconds) in order to meet the schedule? What is the theoretical minimum number of workstations needed to meet the schedule? Balance this line using longest processing time. Calculate the total idle time. What is the efficiency of the balance obtained in part e?
Practical Management Science
6th Edition
ISBN:9781337406659
Author:WINSTON, Wayne L.
Publisher:WINSTON, Wayne L.
Chapter2: Introduction To Spreadsheet Modeling
Section: Chapter Questions
Problem 20P: Julie James is opening a lemonade stand. She believes the fixed cost per week of running the stand...
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A company is designing a product layout for a new product. It plans to use this production line
eight hours a day in order to meet a schedule of 400 units per day. The tasks necessary to
produce this product are detailed in table 6 below.
Table 6
Task Predecessor Time (seconds)
A - 50
B A 36
C - 26
D - 22
E B, D 70
F C, E 30
- Draw the network described in the table.
- Without regard to a production schedule, what is the minimum possible cycle time (in seconds) for this situation; what is the maximum?
- What is the required cycle time (in seconds) in order to meet the schedule?
- What is the theoretical minimum number of workstations needed to meet the schedule?
- Balance this line using longest processing time.
- Calculate the total idle time.
- What is the efficiency of the balance obtained in part e?
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