022 Exam 2 Sample B, Problem 8

Find the quantity that produces maximum profit, given demand function $p=70-3x$ and cost function $C=120-30x+2x^{2}.$

ExpandFoundations:
Recall that the demand function, $p(x)$ , relates the price per unit $p$ to the number of units sold, $x$ . Moreover, we have several important important functions:
$C(x)$ , the total cost to produce $x$ units; $R(x)$ , the total revenue (or gross receipts) from producing $x$ units; $P(x)$ , the total profit from producing $x$ units.
In particular, we have the relations
$P(x)=R(x)-C(x),$
and
$R(x)=x\cdot p(x).$
Using these equations, we can find the maximizing production level by determining when the first derivative of profit is zero.

Solution:

ExpandStep 1:
Find the Profit Function: We have
$R(x)\,=\,x\cdot p(x)\,=\,x\cdot (70-3x)\,=\,70x-3x^{2}.$
From this,
$P(x)\,=\,R(x)-C(x)\,=\,70x-3x^{2}-\left(120-30x+2x^{2}\right)\,=\,-120+100x-5x^{2}.$

ExpandStep 2:
Find the Maximum: The equation for marginal revenue is
$P(x)\,=\,-120+100x-5x^{2}.$
Applying our power rule to each term, we find
$P'(x)\,=\,100-10x\,=\,8(15-x).$
The only root of this occurs at $x=10$ , and this is our production level to achieve maximum profit.

ExpandFinal Answer:
Maximum profit occurs when we produce 10 items.

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