A large company in the communication and publishing industry has quantified the relationship between the price of one of its products and the demand for this product as Price = 150- 0.01 x Demand for an annual printing of this particular product. The fixed costs per year (i.E., per printing) =$50,000 and the variable cost per unit =$40. What is the maximum profit that can be achieved if the maximum expected demand is 6,000 units per year? What is the unit price at this oint of optimal demand?

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amcool amcool · Answer 1 · 2020-10-06T05:00:16+02:00

Answer:

a. The maximum profit that can be achieved is $300,000.

b. The unit price at this point of optimal demand is $90.

Explanation:

From the question, we can obtain the following:

x = Maximum expected demand = 6,000 units

Price = 150 - 0.01 x = 150 - (0.01 * 6,000) = 150 - 60 = $90

Fixed cost per year = $50,000

Variable cost per unit = $40

Total variable cost = Variable cost per unit * Maximum expected demand = $40 * 6,000 = $240,000

Total cost = Fixed cost + Total variable cost = $50,000 + $240,000 = $290,000

Revenue = Price * Maximum expected demand = $90 * 6,000 = $540,000

Therefore, we have:

a. What is the maximum profit that can be achieved if the maximum expected demand is 6,000 units per year?

Profit = Revenue - Total cost = $540,000 - $240,000 = $300,000

Therefore, the maximum profit that can be achieved is $300,000.

b. What is the unit price at this point of optimal demand?

As already stated above, the following are given in the question:

x = Maximum expected demand = 6,000

Price = 150 - 0.01 x ........................... (1)

Substitute for x in equation (1), we have:

Price = 150 - (0.01 * 6,000) = 150 - 60 = $90

Therefore, the unit price at this point of optimal demand is $90.