QUESTION 2 Part A is produced on machine 1 and then machine 2. One unit of Part A is assembled with three units of Part B, which is produced on machine 3. in assembly station 4. Machine 1 has a scrap factor of 20%, and machine 2 has a scrap factor of 10%. The assembly process has a scrap factor of 15% Another part, Part C, is produced on machine 5 and has a scrap estimate of 25% Part C and the subassembly comprising of Part A and Part B are assembled at assembly station 6 into the completed product. Each day, 15,000 units of the completed product are required to meet demand. Assuming that machine 3 and assembly station 6 have scrap factors of 30% cach, what are the requirements for Parts A, B, and C in order to meet the daily demand for the completed product? The factory works for 9 hrs with one hour of lunch break. Ir the standard time for assembly station 4 and 6 are four and six minutes respectively determine number of machines required at assembly station 4 and 6 if machine downtime for both is 1797 Given below is the relationship matrix for 7 (SEVEN) departments in a factory. Areas for the departments are also given. Each department has a rectangular shape. Using the FLAP method, determine the following: (a). Closeness rank (b). Selection order (c). One layout Calculate the score of the suggested layout (A=16, E=16, 1=10, 0-4, U=0) JUSTIFICATION MUST BE GIVEN FOR EACH DEPARTMENT SELECTION Relation Matrix 3 4 5 6 7 Area (m2) I E O 16 E IU 15 12 - 0