1 0 4. (10 pts. Create the hexagonal adjacency graph following the SPIRAL technique using the centroid seeking rule to break any ties between alternative locations using the list of adjusted binary relationships tuples and the material flow chart below. Clearly show the sequence of steps in your graph construction procedure, i.e. indicating the order of the departments to enter in the hexagonal graph and the location of a department, if you need to break location tics or not, etc. Material flow chart tuple Radi(1.j) tuple Radi(1.1) 2 3 4 5 6 1.2 5 3,4 00 4 3,5 -5 0 0 4 6 1.4 3,6 0 1.5 0 4,5 2 1.6 0 4,6 -4 2,3 -4 5,6 2 2.4 -10 2.5 2,6 -2 Out 0 11 1 2 3 4 2 1.3 Coole 4 -5 0 6 4 5 6 4 0 0 -6 ANSWERS: 1 0 4. (10 pts. Create the hexagonal adjacency graph following the SPIRAL technique using the centroid seeking rule to break any ties between alternative locations using the list of adjusted binary relationships tuples and the material flow chart below. Clearly show the sequence of steps in your graph construction procedure, i.e. indicating the order of the departments to enter in the hexagonal graph and the location of a department, if you need to break location tics or not, etc. Material flow chart tuple Radi(1.j) tuple Radi(1.1) 2 3 4 5 6 1.2 5 3,4 00 4 3,5 -5 0 0 4 6 1.4 3,6 0 1.5 0 4,5 2 1.6 0 4,6 -4 2,3 -4 5,6 2 2.4 -10 2.5 2,6 -2 Out 0 11 1 2 3 4 2 1.3 Coole 4 -5 0 6 4 5 6 4 0 0 -6 ANSWERS