RoomRoomRoom Room Room Room His foreman has completed a month-long study of the

Question

RoomRoomRoom Room Room Room His foreman has completed a month-long study of the number of loads of material that have moved from one process to another in the current building. This information is contained in the flow matrix onthe left below. Finally, Creasey also developed a matrix to indicate distances between the work areas shown in the building schematic, shown on the right below. 1 2 3 45 6 Materials Welding Drills Lathes Grinders Benders 100 45 0 Materials Welding Drills Lathes Grinders BenderS ?20 40 20 40 60 2 -- 20 40 20 40 3 - -- 60 40 20 4-20 40 5----20 0 55 0 45 20 25 50 20 0 2 0 120 0 0 20 0 45 Based on the flows shown in the matrix, it is likely that the processes Drills and Grinders are in rooms next to each other as they have the highest number of moves between each other Based on the flows shown in the matrix, it is likely that the processes Materials and Welding are in rooms next to each other as they have the second highest number of moves between each other. One of the layouts that could be designed is: oom 1 = Benders 4 = Drills 2 Materials Room 3 Welding 5 Grinders Room 6 Lathes The cumulative distance based on the overall movement of material between processes for this layout ? feet enter your response as a whole number. Enter your answer in the answer box and then click Check Answer

Explanation / Answer

Highest number of moves between Drills and Grinders = 50+120 = 170

Based on layout shown in the matrix, it is likely that processes Drills and Grinders are in rooms next to each other as they have the highest number of moves between each other.  

Second highest Moves between Materials and Welding = 100+20 = 120

Based on layout shown in the matrix, it is likely that processes Materials and Welding are in rooms next to each other as they have the second highest number of moves between each other.  

Cumulative distance based on given layout

= Moves between Benders to Materials and Materials to Benders * Distance between Benders and Materials

+ Moves between Benders to Welding and Welding to Benders * Distance between Benders and Welding

+ Moves between Benders to Drills and Drills to Benders * Distance between Benders and Drills

+ Moves between Benders to Grinders and Grinders to Benders * Distance between Benders and Grinders

+ Moves between Benders to Lathes and Lathes to Benders * Distance between Benders and Lathes

+ Moves between Welding to Materials and Materials to Welding * Distance between Welding and Materials

+ Moves between Drills to Materials and Materials to Drills * Distance between Drills and Materials

+ Moves between Grinders to Materials and Materials to Grinders * Distance between Grinders and Materials

+ Moves between Lathes to Materials and Materials to Lathes * Distance between Lathes and Materials

+ Moves between Welding to Drills and Drills to Welding * Distance between Welding and Drills

+ Moves between Welding to Grinders and Grinders to Welding * Distance between Welding and Grinders

+ Moves between Welding to Lathes and Lathes to Welding * Distance between Welding and Lathes

+ Moves between Drills to Grinders and Grinders to Drills * Distance between Drills and Grinders

+ Moves between Drills to Lathes and Lathes to Drills * Distance between Drills and Lathes

+ Moves between Lathes to Grinders and Grinders to Lathes * Distance between Lathes and Grinders

= (55+5)*20+(0+0)*40+(0+20)*20+(0+0)*40+(0+0)*60+(100+20)*20+(45+25)*40+(0+45)*20+(0+0)*40+(0+0)*60+(0+0)*40+(45+20)*20+(50+120)*20+(0+0)*40+(0+20)*20

= 12,800 feet

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