Parts arrive at a manufacturing system with 2 different processes in series and one inspection. An queue follow the FIFO rule. The parts must have a specific diameter between 5 and 7.5 millimeters after being processed. The parts that fail to fulfill this requirement are separated after the inspection, The simulation model is shown below: Recorded God Parts Parts Insecten De Process Process pection Results Pertama Bad Parts Record Bad Parts More detailed information regarding the arrival process, the two processes and inspection are shown below: Create. Basic Process Name Parts Arrival Entity Type Type Part Random (Expo Value Units 5 Minutes Entries per Arrival Max Arrivals First Creation Infinite 0.0 Process - Basic Process Name Type 1 Process 1 Standard 2 Process 2 Standard 3 Inspection Standard Minimum Value Maximum Std Dev 3 4 6 2 Action Seize Delay Release Seize Delay Release Seize Delay Release Units Minutes Minutes Resources Delay Type Processor 1 Triangular Processor 2 Uniform Inspector Normal 3 1 5.5 Minutes 5 4 1.5 1 Crose Banic Process Name 1 Parts Arrival Entity Type Type Port Random (Expo) Value Unts 5 Minutes Entities per Arrival Max Arrivals First Creation 1 Infinite 0.0 Pocons Basic Process Name Type 1 Process 1 Standard 2 Process 2 Standard 3 Inspection Standard Units Minutes Action Setze Delay Release Seize Delay Release Seize Delay Release Resources Delay Type Processor 1 Triangular Processor 2 Uniform Inspector Normal Minimum Value Maximum Std Dev 3 4 6 2 3 1 5.5 4 15 1 Minutes Minutes The "Dimension" assign module below assigns the dimension to each processed part as follows: Assign - Basic Process Name 1 Dimensions Attribute Name New Value Large UNIF(4,8) The following Output Report is obtained after running one replication (Note that the report is intentionally incomplete): ARENA Sulation Results Summary for Replication 1 of 1 1440. Minutes Replication ended at time Base Time Units: Minutes Identifier TALLY VARIABLES Average Half Width Minime Max Observations Identifier COUNTERS Count Limit Part.VATime Part. Wait Time Part. TotalTime Inspection. Queue. Waiting Time Process 2.Queue. waiting time Process 1. Queue. Waiting time 17.990 24.850 34.973 6.6693 Record Good Parts Record Bad Parts Infinite 100 Infinite 252 12.451 (Insuf) 3.9337 5.918 (Insuf) .00000 (Insuf) 9.6523 .68468 (Insuf) .60000 .94759 (Insuf) 00000 4.2949 (Insuf) DISCRETE-CHANGE VARIABLES Average Half width Mini 253 20.761 Identifier OUTPUTS Value Identifier Part. Numberin Part NumberOut 258.00 Maxim Final Value Part.IP Processor 1.Utilization Processor 2.utilitation Inspector. Utilization Inspection. Queve. Number InQueue Process 2.Queue. NumberinQueue 3.2406 .75339 .73667 .69772 .11980 .16683 (Corr) (Insuf) (Insuf) (Insuf) (Insuf) (Insuf) 173 .60000 .80000 .00000 .60000 .ee .60000 9.se 1.0000 1.0000 1.000 2.000 3.0000 1.0000 1.0000 .000 .60000 What is the expected total time of the first part that enters the system? 0 12.500 12.583 O 12.250 O 14.000 What is the expected number of parts that will fail the specifications after 24 hours? 180 O 92 O 108 O 144 What is the expected utilization of the inspector? O 0.94 O 1 O 0.8 O 0.67 What is the theoretical maximum processing time (excluding inspection) any part can go through? Can't be determined O 11.5 O 15.5 Fill the blanks corresponding to some missing information in the output report (if the number is not an integer, use 3 decimal places) Part NumberOut Number of Good Parts Final Value Part.WIP Final Value Process 2.NumberinQueue Part. TotalTime Number of Observations Process 1.Queue.WaitingTime Parts arrive at a manufacturing system with 2 different processes in series and one inspection. An queue follow the FIFO rule. The parts must have a specific diameter between 5 and 7.5 millimeters after being processed. The parts that fail to fulfill this requirement are separated after the inspection, The simulation model is shown below: Recorded God Parts Parts Insecten De Process Process pection Results Pertama Bad Parts Record Bad Parts More detailed information regarding the arrival process, the two processes and inspection are shown below: Create. Basic Process Name Parts Arrival Entity Type Type Part Random (Expo Value Units 5 Minutes Entries per Arrival Max Arrivals First Creation Infinite 0.0 Process - Basic Process Name Type 1 Process 1 Standard 2 Process 2 Standard 3 Inspection Standard Minimum Value Maximum Std Dev 3 4 6 2 Action Seize Delay Release Seize Delay Release Seize Delay Release Units Minutes Minutes Resources Delay Type Processor 1 Triangular Processor 2 Uniform Inspector Normal 3 1 5.5 Minutes 5 4 1.5 1 Crose Banic Process Name 1 Parts Arrival Entity Type Type Port Random (Expo) Value Unts 5 Minutes Entities per Arrival Max Arrivals First Creation 1 Infinite 0.0 Pocons Basic Process Name Type 1 Process 1 Standard 2 Process 2 Standard 3 Inspection Standard Units Minutes Action Setze Delay Release Seize Delay Release Seize Delay Release Resources Delay Type Processor 1 Triangular Processor 2 Uniform Inspector Normal Minimum Value Maximum Std Dev 3 4 6 2 3 1 5.5 4 15 1 Minutes Minutes The "Dimension" assign module below assigns the dimension to each processed part as follows: Assign - Basic Process Name 1 Dimensions Attribute Name New Value Large UNIF(4,8) The following Output Report is obtained after running one replication (Note that the report is intentionally incomplete): ARENA Sulation Results Summary for Replication 1 of 1 1440. Minutes Replication ended at time Base Time Units: Minutes Identifier TALLY VARIABLES Average Half Width Minime Max Observations Identifier COUNTERS Count Limit Part.VATime Part. Wait Time Part. TotalTime Inspection. Queue. Waiting Time Process 2.Queue. waiting time Process 1. Queue. Waiting time 17.990 24.850 34.973 6.6693 Record Good Parts Record Bad Parts Infinite 100 Infinite 252 12.451 (Insuf) 3.9337 5.918 (Insuf) .00000 (Insuf) 9.6523 .68468 (Insuf) .60000 .94759 (Insuf) 00000 4.2949 (Insuf) DISCRETE-CHANGE VARIABLES Average Half width Mini 253 20.761 Identifier OUTPUTS Value Identifier Part. Numberin Part NumberOut 258.00 Maxim Final Value Part.IP Processor 1.Utilization Processor 2.utilitation Inspector. Utilization Inspection. Queve. Number InQueue Process 2.Queue. NumberinQueue 3.2406 .75339 .73667 .69772 .11980 .16683 (Corr) (Insuf) (Insuf) (Insuf) (Insuf) (Insuf) 173 .60000 .80000 .00000 .60000 .ee .60000 9.se 1.0000 1.0000 1.000 2.000 3.0000 1.0000 1.0000 .000 .60000 What is the expected total time of the first part that enters the system? 0 12.500 12.583 O 12.250 O 14.000 What is the expected number of parts that will fail the specifications after 24 hours? 180 O 92 O 108 O 144 What is the expected utilization of the inspector? O 0.94 O 1 O 0.8 O 0.67 What is the theoretical maximum processing time (excluding inspection) any part can go through? Can't be determined O 11.5 O 15.5 Fill the blanks corresponding to some missing information in the output report (if the number is not an integer, use 3 decimal places) Part NumberOut Number of Good Parts Final Value Part.WIP Final Value Process 2.NumberinQueue Part. TotalTime Number of Observations Process 1.Queue.WaitingTime