Suppose a company has fixed costs of $40,800 and average variable costs given by AVC(x)-x + 333 dollars per unit, where x is the total number of units produced. Suppose further that the selling price of its product is p=1567 - x dollars per unit. (a) Find the break-even points. (Enter your answers as a comma-separated list.) (b) Find the maximum total revenue. (Round your answer to the nearest cent.) (c) Form the profit function, P(x), from the total cost and total revenue functions. P(x)- Find maximum profit. (Round your answer to the nearest cent.) (d) What price per unit will maximize the profit? (Round your answer to the nearest cent.)

(section 2. q 3) This is another question from my math homework due today by 5 and I have no clue how to solve it. I have attached my equation "cheat-sheet" please help me!

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31 8.4 Summary Suppose you produce and sell Things. The following table summarizes the terms we've learned so far relating to revenue and cost. Assume you are given a graph of total cost TC(q) and total revenue TR(q) for producing and selling q Things. Graphical Interpretation Related equations and Term Definition formulas the total amount you spend to produce q Things total cost TC(q) = V C(q)+ FC TC(q) the money you spend to produce q Things without including fixed costs the graph of VC has the same shape as TC and goes through the origin variable cost VC(q) = TC(q) – FC VC(q) the money you must spend even if you produce 0 Things; the vertical distance between FC = TC(q) – VC(q) FC = TC(0) fixed cost the TC and VC graphs OR the "y"-intercept of the TC graph FC also known as overhead average cost AC(q) total cost averaged over the number of Things produced the slope of the diagonal line through the TC graph at q TC(q) AC(q) average variable cost variable cost averaged over the number of Things produced the slope of the diagonal line through the VC graph at q VC(q) AVC(q) AV C(q) the slope of the least steep diagonal line that intersects the TC graph the slope of the least steep diagonal line that intersects the VC graph the slope of the secant line through TC (or VC) at q and q+1 breakeven the smallest value of average price ВЕР cost shutdown the smallest value of average price variable cost SDP marginal cost MC(q) (see footnote) the incremental rate of (q+1)—ТC(q) MC(q) change in TC from q to q+ 1 Things total revenue the total amount you receive when you sell q Things TR(q) average total revenue averaged over the number of Things sold; also known as price per Thing the slope of the diagonal line through the TR graph at q TR(q) AR(q) revenue AR(q) the slope of the secant line through the TR graph at q and q+1 the incremental rate of marginal revenue MR(q) | change in TR from q to q +1 (see footnote) MR(q) TR(q+1)–TR(g) Things the vertical distance between profit P(q) the money you are left with after subtracting total cost from total revenue TR and TC (when TR>TC) P(q) = TR(q) – TC(q) NOTE: If q is measured in hundreds or thousands of Things, the definitions, formulas, and graphical interpretations of marginal revenue and marginal cost must be adjusted appro- priately.

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Suppose a company has fixed costs of $40,800 and average variable costs given by AVC(x)==x - + 333 dollars per unit, where x is the total number of units produced. Suppose further that the selling price of its product is p=1567 – x - dollars per unit. (a) Find the break-even points. (Enter your answers as a comma-separated list.) X = (b) Find the maximum total revenue. (Round your answer to the nearest cent.) $ (c) Form the profit function, P(x), from the total cost and total revenue functions. P(x) = Find maximum profit. (Round your answer to the nearest cent.) $ (d) What price per unit will maximize the profit? (Round your answer to the nearest cent.) $