Reference no: EM131128810
Nooner Appliance
1. Nooner Appliance Producers (NAP), a small appliance manufacturing company that specializes in clocks, must decide what types and quantities of output to manufacture for each week's sale. Currently Nooner makes only two kinds of clocks, regular clocks and alarm clocks, from which the product mix is selected. Next week's product mix can only be produced with the labor, facilities, and parts currently on hand. These supplies are as follows:
Number of labor hours 1,600
Number of processing hours 1,800
Number of alarm assemblies 350
The resources are related to the two alternative manufactured outputs, regular clocks and alarm clocks, in the following way: each regular clock produced requires 2 hours of labor and 6 hours of processing, while each alarm clock produced requires 4 hours of labor and 2 hours of processing. The profit per unit for regular clocks is $3.00 while the company makes $8 per unit for alarm clocks. Additionally, at least 300 clocks in total must be produced. How many of each type of clock should Nooner produce to maximize profit? The LP structure and solution are shown below.
LINEAR PROGRAMMING PROBLEM: Nooner Appliance Producers (NAP)
MAX 3X1+8X2
S.T.
1) 2X1+4X2<1600
2) 6X1+2X2<1800
3) 1X2<350
4) 1X1+1X2>300
OPTIMAL SOLUTION
Objective Function Value = 3100.000
Variable Value Reduced Costs
-------------- --------------- ------------------
X1 100.000 0.000
X2 350.000 0.000
Constraint Slack/Surplus Dual Prices
-------------- --------------- ------------------
1 0.000 1.500
2 500.000 0.000
3 0.000 2.000
4 150.000 0.000
OBJECTIVE COEFFICIENT RANGES
Variable Lower Limit Current Value Upper Limit
------------ --------------- --------------- ---------------
X1 0.000 3.000 4.000
X2 6.000 8.000 No Upper Limit
RIGHT HAND SIDE RANGES
Constraint Lower Limit Current Value Upper Limit
------------ --------------- --------------- ---------------
1 1400.000 1600.000 1766.667
2 1300.000 1800.000 No Upper Limit
3 300.000 350.000 400.000
4 No Lower Limit 300.000 450.000
Given the Nooner scenario:
(a) Solve using the graphical solution procedure and identify all extreme points of the feasible region.
(b) How much of each clock should be produced and what is the associated profit??
Using the output from the Management Scientist, answer the remaining questions.
(c) What are the values and interpretations of all slack and surplus variables?
(d) Determine (compute manually) and interpret the range of optimality for the objective function coefficients.
(e) Interpret each of the shadow prices.
(f) If the profit on an alarm clock decreased to $6 per unit, what parts of the optimal solution would change and how, and what parts would not change? Explain your rationale.
(g) Suppose Nooner can get an additional 100 alarm assemblies at a premium price of $1 more than the current price. Should Nooner take advantage of this offer? Explain your rationale.