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Tri-products is trying to decide whether to make or buy an accessory item for one of their products. It is projected that this item will sell for $10 each. If the item is outsourced, there is virtually no cost other than the $6 per unit that they would pay their supplier. Internally, they have two choices. Process A requires an investment of $120,000 for design and equipment, but results in a $4 per unit cost. Process B requires only a $100,000 investment, but its per unit cost is $5. Regardless of whether the item is subcontracted or produced internally, there is a 50% chance that they will sell 50,000 units, and a 50% chance that they will sell 100,000 units. Draw the decision tree appropriate to the alternatives and outcomes stated. Using the decision tree and Expected Values, what is their best choice?

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Answer:

The best choice is process A since it has the highest EMV of $330000

Explanation:

there is a 50% chance that they will sell 50,000 units, and a 50% chance that they will sell 100,000 units

The decision tree is attached below, the calculations for the decision tree is given as:

The item sells for $10. Process A requires an investment of $120,000 for design and equipment, but results in a $4 per unit cost.

If there is high demand, they will sell 100,000 units, The profit = 100000($10-$4) - $120000 = $480000.

If there is low demand, they will sell 50,000 units, The profit = 50000($10-$4) - $120000 = $180000.

The EMV of process A = 0.5($480000) + 0.5($180000) = $330000

Process B requires only a $100,000 investment, but its per unit cost is $5

If there is high demand, they will sell 100,000 units, The profit = 100000($10-$5) - $100000 = $400000.

If there is low demand, they will sell 50,000 units, The profit = 50000($10-$5) - $100000 = $150000.

The EMV of process B = 0.5($400000) + 0.5($150000) = $275000

If the item is outsourced, there is virtually no cost other than the $6 per unit that they would pay their supplier

If there is high demand, they will sell 100,000 units, The profit = 100000($10-$6) = $400000.

If there is low demand, they will sell 50,000 units, The profit = 50000($10-$6) = $200000.

The EMV of Buying = 0.5($400000) + 0.5($200000) = $300000

The best choice is process A since it has the highest EMV

Ver imagen raphealnwobi

The question asks about whether to buy and sell a product or produce and sell a product.

The item can be sold for $10.

If Outsourced

The cost of an item will be $6 which can be sold at $10, this in return will provide a profit of $4.

If there is high demand 100,000 units will be sold

Sales $10 * 100,000 = $1,000,000.

Cost  $6 * 100,000 = $600,000

Profit = $1,000,000 - $600,000 = $400,000

If there is low demand

Sales $10 * 50,000 = $500,000.

Cost  $6 * 50,000 = $300,000

Profit = $500,000 - $300,000 = $200,000

Calculating Probability

$400,000 * 0.5 + $200,000 *.05

=$300,000

If Produced Internally

A

Investment required $120,000

Cost per unit will be $4

If there is high demand 100,000 units will be sold

Sales $10 * 100,000 = $1,000,000.

Cost  $4 * 100,000 = $400,000

Profit = $1,000,000 - $400,000 - $120,000 = $480,000

If there is low demand

Sales $10 * 50,000 = $500,000.

Cost  $4 * 50,000 = $200,000

Profit = $500,000 - $200,000 - $120,000 = $180,000

Calculating Probability

$480,000 * 0.5 + $180,000 *.05

=$330,000

B

Investment required $100,000

Cost per unit will be $5

If there is high demand 100,000 units will be sold

Sales $10 * 100,000 = $1,000,000.

Cost  $5 * 100,000 = $500,000

Profit = $1,000,000 - $500,000 - $100,000 = $400,000

If there is low demand

Sales $10 * 50,000 = $500,000.

Cost  $5 * 50,000 = $250,000

Profit = $500,000 - $250,000 - $100,000 = $150,000

Calculating Probability

$400,000 * 0.5 + $150,000 *.05

=$275,000

The highest gain/profit is achieved at A thus Process A should be selected

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