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The table below defines the precedence relationships and element times for a new model toy. (a) Construct the precedence diagram for this job. (b) If the ideal cycle time = 1.1 min. repositioning time=0.1 min, and uptime proportion is assumed to be 1.0, what is the theoretical minimum number of workstations required to minimize the balance delay under the assumption that there will be one worker per station? (c) Use the largest candidate rule to assign work elements to stations. (d) Use the Kilbridge and Wester method to assign work elements to stations. (e) Use the ranked positional weights method to assign work elements to stations. (f) Compute the balance delay for your solutions from the three line balancing methods. Work element Te (min) Immediate predecessors 1 0.5 0.3 3 0.8 4 0.2 0.1 0.6 3 0.4 4.5 8 0.5 3,5 9. 0.3 7,8 6.9 10 0.6

The table below defines the precedence relationships and element times for a new model toy. (a) Construct the precedence diagram for this job. (b) If the ideal cycle time = 1.1 min. repositioning time=0.1 min, and uptime proportion is assumed to be 1.0, what is the theoretical minimum number of workstations required to minimize the balance delay under the assumption that there will be one worker per station? (c) Use the largest candidate rule to assign work elements to stations. (d) Use the Kilbridge and Wester method to assign work elements to stations. (e) Use the ranked positional weights method to assign work elements to stations. (f) Compute the balance delay for your solutions from the three line balancing methods. Work element Te (min) Immediate predecessors 1 0.5 0.3 3 0.8 4 0.2 0.1 0.6 3 0.4 4.5 8 0.5 3,5 9. 0.3 7,8 6.9 10 0.6

Practical Management Science
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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The table below define 

The table below defines the precedence relationships and element times for a new model toy. (a) Construct the precedence diagram for this job. (b) If the ideal cycle time = 1.1 min. repositioning time=0.1 min, and uptime proportion is assumed to be 1.0, what is the theoretical minimum number of workstations required to minimize the balance delay under the assumption that there will be one worker per station? (c) Use the largest candidate rule to assign work elements to stations. (d) Use the Kilbridge and Wester method to assign work elements to stations. (e) Use the ranked positional weights method to assign work elements to stations. (f) Compute the balance delay for your solutions from the three line balancing methods. Work element Te (min) Immediate predecessors 1 0.5 0.3 3 0.8 4 0.2 0.1 0.6 3 0.4 4.5 8 0.5 3,5 9. 0.3 7,8 6.9 10 0.6
Transcribed Image Text:The table below defines the precedence relationships and element times for a new model toy. (a) Construct the precedence diagram for this job. (b) If the ideal cycle time = 1.1 min. repositioning time=0.1 min, and uptime proportion is assumed to be 1.0, what is the theoretical minimum number of workstations required to minimize the balance delay under the assumption that there will be one worker per station? (c) Use the largest candidate rule to assign work elements to stations. (d) Use the Kilbridge and Wester method to assign work elements to stations. (e) Use the ranked positional weights method to assign work elements to stations. (f) Compute the balance delay for your solutions from the three line balancing methods. Work element Te (min) Immediate predecessors 1 0.5 0.3 3 0.8 4 0.2 0.1 0.6 3 0.4 4.5 8 0.5 3,5 9. 0.3 7,8 6.9 10 0.6
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