Tire plant decisions Decisionoutcome Expand Remain stable Co

Tire plant decisions
Decision\\outcome	Expand	Remain stable	Contract
Construct a new plant	$400,000	-$100,000	-$200,000
Expand existing plant	$250,000	-$50,000	-$75,000
Do nothing	$50,000	$0	-$30,000

inputs appears to have the largest effect on the best decision? 3l. Carlisle Tire and Rubber, Inc., is considering expanding production to meet potential increases in the demand for one of its tire products. Carlisle\'s alternatives are to construct a new plant, expand the existing plant, or do nothing in the short run. The mar- ket for this particular tire product may expand, remain stable, or contract. Carlisle\'s marketing department estimates the probabilities of these market outcomes to be 0.25, 0.35, and 0.40, respectively. The file P06 31.xlsx contains Carlisle\'s payoffs and costs for the various combinations of decisions and outcomes a. Ulse Precision Treeto identify the strategy that b. Perform a sensitivity analysis on the optimal maximizes this tire manufacturer\'s expected profit. decision, letting each of the monetary inputs vary one at a time plus or minus 10% from its base value, and summarize your findings. Which of the inputs appears to have the largest effect on the best solution? 2 A local energy provider offers a landowner $180,000 for the exploration rights to natural gas on a certai

Solution

Expected profit in case decision is - Construct new plant=probability in case market expands*Profit in case market expands+probability in case market remains stable*profit in case market remains stable+probability in case market contracts*Profit in case market contracts = (0.25*400,000)+(0.35*-100,000)+(0.4*-200,000) = -$15,000

Expected profit in case decision is- Expand existing plant=probability in case market expands*Profit in case market expands+probability in case market remains stable*profit in case market remains stable+probability in case market contracts*Profit in case market contracts = (0.25*250,000)+(0.35*-50,000)+(0.4*-75,000) = $15,000

Expected profit in case decision is -Do nothing=probability in case market expands*Profit in case market expands+probability in case market remains stable*profit in case market remains stable+probability in case market contracts*Profit in case market contracts = (0.25*50,000)+(0.35*0)+(0.4*-35,000) = $500

Maximum expected profit = max (-15,000 , 15,000, 500) = $15,000

Maximum expected profit is observed in case of \" Expand existing plant\". Thus the company should expand its existing plant.

The table is shown below:

b. If $400,000 is increased by 10% then:

This has no impact on the best solution and it remains at $15,000.

Similarly if -$100,000 or -$200,000 is increased or decreased by 10% there will be no impact on the best solution.

Any value in row corresponding to \"expand existing plant\" while have a direct bearing on the best output. If 250,000 is expanded by 10% the best solution will increase:

The % increase is (21250-15000)/15000 = 41.67%

This is the maximum impact on the best solution. Thus best solution changes the most when the input of $250,000 is changed by 10%.

		Market outcome
		Expands	Stable	Contracts		Expected profit
	Probability of market outcome	0.25	0.35	0.4
Decision	Construct new plant	$400,000	-$100,000	-$200,000		-$15,000.00
	Expand existing plant	$250,000	-$50,000	-$75,000		$15,000.00
	Do nothing	$50,000	$0	-$30,000		$500.00