Answer to Question #155105 in Operations Research for Wachira Ann Wangari

Table of shipping costs (optimal):

E F G

A 90 110 140

B 80 100 130

C 70 90 120

Table of shipping units:

E F G Supply

A "x_{11}" "x_{12}" "x_{13}" 1000

B "x_{21}" "x_{22}" "x_{23}" 2000

C "x_{31}" "x_{32}" "x_{33}" 1000

Demand 900 800 900

Constraints for supply:

"x_{11}+""x_{12}+""x_{13}\\leq1000"

"x_{21}+""x_{22}+""x_{23}\\leq2000"

"x_{31}+""x_{32}+""x_{33}\\leq1000"

Constaints for demand:

"x_{11}+""x_{21}+""x_{31}\\geq900"

"x_{12}+""x_{22}+""x_{32}\\geq800"

"x_{13}+""x_{23}+""x_{33}\\geq900"

We use Northwest Corner Method:

E F G Supply

A "x_{11}" "x_{12}" "x_{13}" 1000

B "x_{21}" "x_{22}" "x_{23}" 2000

C "x_{31}" "x_{32}" "x_{33}" 1000

Demand 900 800 900

We begin at the most northwest variable (upper left corner). This is "x_{11}"

we set "x_{11}=min\\{supply A,demandE\\}=min\\{1000,900\\}=900"

now demand "E=900-900=0" , supply "A=1000-900=100"

now the most northwest variable is "x_{12}"

set "x_{12}=min\\{supply A,demandF\\}=min\\{100,800\\}=100"

now demand "F=800-100=700" , supply "A=100-100=0"

now the most northwest variable is "x_{22}"

set "x_{22}=min\\{supply B,demandF\\}=min\\{2000,700\\}=700"

now demand "F=700-700=0" , supply "B=2000-700=1300"

now the most northwest variable is "x_{23}"

set "x_{23}=min\\{supply B,demandG\\}=min\\{1300,900\\}=900"

No cells are available, so we are finished.

So, we get:

"x_{11}=900, x_{12}=100, x_{22}=700, x_{23}=900"

So, minimum of total shipping cost:

"90x_{11}+100x_{12}+100x_{22}+130x_{23}="

"=90\\cdot900+100\\cdot100+100\\cdot700+130\\cdot900=278000"