1) TFC = AFC*Q
= fgab
option(A)
2) MR exceeds ATC for the firm to make an economic profit
option(B)
3) Per unit profit = P-ATC
= 15-10
= 5
Option(A)
At the profit-maximizing output, total fixed cost MC MR ATC b AVC hkn Output Multiple Choice...
If a perfectly competitive firm is producing at the P MC output and realizing an economic profit, at that output Multiple Choice marginal revenue is less than price. marginal revenue exceeds ATC ATC is being minimized total revenue equals total cost
$ per unit MC ATC MR $20 AVC 5 10 15 20 25 30 Output (g) The graph above shows a firm's Marginal Revenue (MR), Marginal Cost (MC), Average Total Cost (ATC) and Average Variable Cost (AVC). This firm is a profit-maximizing price taker. Calculate the firm's profit. (Do not include a $ sign in your response. Round to the nearest two decimal places if necessary.)
A firm's ATC, AVC, MR, and MC curves are shown in the graph below. Profit-Maximizing Point Profit-Maximizing Point Economic Profit (shaded region) 54+ 48 IMR Cost and revenues AVC HHHHHHHHHHHHHHHHHHHHO 044 Reset 8 12 16 20 24 28 32 36 40 44 48 Output a) Draw the short-run profit-maximizing point and the economic profit region. Select which item you want to draw from the drop-down menu at the top of the graph to draw that item. b) What is the...
Figure 12-4 Price and cost MC ATC AVC $40.50 36.00 30.00 22.00 20.00 -MR 130 180 240 Quantity Figure 12-4 shows the cost and demand curve for a profit-maximizing firm in a perfectly competitive market. 37) Refer to Figure 12-4. If the market price is $30 and if the firm is producing output, what is the amount of its total variable cost? A) $7,200 B) $6,480 C) $5,400 D) $3,960 Figure 15-6 Revenue and cost per unit $30 ATC Demand...
1) A perfectly competitive firm faces the following Total revenue, Total cost and Marginal cost functions: TR = 10Q TC = 2 + 2Q + Q2 MC = 2 + 2Q At the level of output maximizing profit , the above firm's level of economic profit is A) $0 B) $4 C) $6 D) $8 *Additional information after I did the math: The price this firm charges for its product is $10, the level of output maximizing profit is 4...
The loss of a perfectly competitive firm which shuts down in the short run: Multiple Choice O is equal to its total variable costs. O O ь is zero. гето. O is equal to its total fixed costs. cannot be determined. Refer to the diagrams, which show the demand and cost curves for a perfectly competitive firm producing output and the demand and supply curve for the industry in which it operates. Which of the following is correct? ATC AVC...
The marginal costs (MC), average variable costs (AVC), and average total costs (ATC) for a monopoly are shown in the figure below. The figure also shows the demand curve (D) and the marginal revenue curve (MR) for this market. Instructions: Use the tools provided to plot the profit-maximizing quantity (Q), the profit-maximizing price (P), the profit (Profit), and the deadweight loss (DWL). Note that the deadweight loss will be only approximate due to the curvature of the marginal cost curve....
$ per unit MC ATC MR $40 AVC $20 2 4 6 8 10 12 Output (9) The graph above shows a firm's Marginal Revenue (MR), Marginal Cost (MC), Average Total Cost (ATC) and Average Variable Cost (AVC). This firm is a profit-maximizing price taker. Find the firm's short run shutdown price. (Do not include a S sign in your response. Round to the nearest two decimal places if necessary.) Answer: Check
The MR = MC rule can be restated for a perfectly competitive seller as P = MC because: Multiple Choice Ο each additional unit of output adds exactly its price to total revenue. Ο the firm's average revenue curve is downward sloping. Ο the market demand curve is downward sloping. Ο the firm's marginal revenue and total revenue curves will coincide.
· Question 7 In the break-even analysis, a lower average variable cost (AVC): Will result in a higher break-even output Will result in a lower break-even output Will result in either a lower or higher break-even output Will lower the contribution margin ratio · Question 8 In the break-even analysis where AVC is assumed to be constant, at each output, AVC and MC are equal AVC is greater than MC AVC is less than MC AVC can be greater or...