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Deck 21: A: Firm Supply

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Question
Suppose that Dent Carr's long-run total cost of repairing s cars per week is c(s) = 2s2 + 50. If the price he receives for repairing a car is $8, then in the long run, how many cars will he fix per week if he maximize profits?

A) 2
B) 0
C) 4
D) 3
E) 6
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Question
A firm has a long-run cost function, C(q) = 3q2 + 108. In the long run, this firm will supply a positive amount of output, as long as the price is greater than

A) $72.
B) $80.
C) $36.
D) $18.
E) $41.
Question
A firm has a long-run cost function, C(q) = 8q2 + 72. In the long run, this firm will supply a positive amount of output, as long as the price is greater than

A) $48.
B) $104.
C) $96.
D) $24.
E) $53.
Question
A firm has a long-run cost function, C(q) = 9q2 + 9. In the long run, this firm will supply a positive amount of output, as long as the price is greater than

A) $36.
B) $44.
C) $9.
D) $18.
E) $23.
Question
Suppose that Dent Carr's long-run total cost of repairing s cars per week is c(s) = 2s2 + 18. If the price he receives for repairing a car is $8, then in the long run, how many cars will he fix per week if he maximize profits?

A) 4
B) 0
C) 3
D) 2
E) 6
Question
Suppose that Dent Carr's long-run total cost of repairing s cars per week is c(s) = 3s2 + 75. If the price he receives for repairing a car is $36, then in the long run, how many cars will he fix per week if he maximize profits?

A) 0
B) 12
C) 9
D) 6
E) 18
Question
Suppose that Dent Carr's long-run total cost of repairing s cars per week is c(s) = 3s2 + 108. If the price he receives for repairing a car is $24, then in the long run, how many cars will he fix per week if he maximize profits?

A) 0
B) 8
C) 4
D) 6
E) 12
Question
In Problem 9, suppose that Irma's production function is f(x1, x2) <strong>In Problem 9, suppose that Irma's production function is f(x<sub>1</sub>, x<sub>2</sub>) = . If the price of factor 1 is w<sub>1</sub> = $3 and the price of factor 2 is w<sub>2</sub> = $6, then her supply function is given by the equation</strong> A) S(p) = 6p. B) S(p) =. C) S(p) = p(min{w<sub>1</sub>, 2w<sub>2</sub>} )<sup>2</sup>. D) S(p) = p(max{w<sub>1</sub>, 2w<sub>2</sub>} )<sup>2</sup>. E) S(p) = min{ 3p, 12p}. <div style=padding-top: 35px> = . If the price of factor 1 is w1 = $3 and the price of factor 2 is w2 = $6, then her supply function is given by the equation

A) S(p) = 6p.
B) S(p) =.
C) S(p) = p(min{w1, 2w2} )2.
D) S(p) = p(max{w1, 2w2} )2.
E) S(p) = min{ 3p, 12p}.
Question
A firm has a long-run cost function, C(q) = 4q2 + 4. In the long run, this firm will supply a positive amount of output, as long as the price is greater than

A) $8.
B) $4.
C) $24.
D) $16.
E) $13.
Question
A firm has a long-run cost function, C(q) = 8q2 + 288. In the long run, this firm will supply a positive amount of output, as long as the price is greater than

A) $200.
B) $192.
C) $96.
D) $48.
E) $101.
Question
In Problem 9, suppose that Irma's production function is f(x1, x2) <strong>In Problem 9, suppose that Irma's production function is f(x<sub>1</sub>, x<sub>2</sub>) . If the price of factor 1 is w<sub>1</sub> = $3 and the price of factor 2 is w<sub>2</sub> = $9, then her supply function is given by the equation</strong> A) S(p) = p(min{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. B) S(p) = 6p. C) S(p) =. D) S(p) = p(max{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. E) S(p) = min{ 3p, 27p}. <div style=padding-top: 35px> . If the price of factor 1 is w1 = $3 and the price of factor 2 is w2 = $9, then her supply function is given by the equation

A) S(p) = p(min{w1, 3w2} )2.
B) S(p) = 6p.
C) S(p) =.
D) S(p) = p(max{w1, 3w2} )2.
E) S(p) = min{ 3p, 27p}.
Question
In Problem 9, suppose that Irma's production function is f(x1, x2) <strong>In Problem 9, suppose that Irma's production function is f(x<sub>1</sub>, x<sub>2</sub>) . If the price of factor 1 is w<sub>1</sub> = $2 and the price of factor 2 is w<sub>2</sub> = $15, then her supply function is given by the equation</strong> A) S(p) =. B) S(p) = p(max{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. C) S(p) = p(min{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. D) S(p) = 7p. E) S(p) = min{ 2p, 45p}. <div style=padding-top: 35px> . If the price of factor 1 is w1 = $2 and the price of factor 2 is w2 = $15, then her supply function is given by the equation

A) S(p) =.
B) S(p) = p(max{w1, 3w2} )2.
C) S(p) = p(min{w1, 3w2} )2.
D) S(p) = 7p.
E) S(p) = min{ 2p, 45p}.
Question
Suppose that Dent Carr's long-run total cost of repairing s cars per week is c(s) = 3s2 + 108. If the price he receives for repairing a car is $24, then in the long run, how many cars will he fix per week if he maximize profits?

A) 0
B) 4
C) 6
D) 8
E) 12
Question
In Problem 9, suppose that Irma's production function is f(x1, x2) <strong>In Problem 9, suppose that Irma's production function is f(x<sub>1</sub>, x<sub>2</sub>) . If the price of factor 1 is w<sub>1</sub> = $2 and the price of factor 2 is w<sub>2</sub> = $6, then her supply function is given by the equation</strong> A) S(p) = p(max{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. B) S(p) = 4p. C) S(p) = p(min{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. D) S(p) =. E) S(p) = min{ 2p, 18p}. <div style=padding-top: 35px> . If the price of factor 1 is w1 = $2 and the price of factor 2 is w2 = $6, then her supply function is given by the equation

A) S(p) = p(max{w1, 3w2} )2.
B) S(p) = 4p.
C) S(p) = p(min{w1, 3w2} )2.
D) S(p) =.
E) S(p) = min{ 2p, 18p}.
Question
In Problem 9, suppose that Irma's production function is f(x1, x2) <strong>In Problem 9, suppose that Irma's production function is f(x<sub>1</sub>, x<sub>2</sub>) . If the price of factor 1 is w<sub>1</sub> = $5 and the price of factor 2 is w<sub>2</sub> = $15, then her supply function is given by the equation</strong> A) S(p) = p(max{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. B) S(p) = p(min{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. C) S(p) = 10p. D) S(p) =. E) S(p) = min{ 5p, 45p}. <div style=padding-top: 35px> . If the price of factor 1 is w1 = $5 and the price of factor 2 is w2 = $15, then her supply function is given by the equation

A) S(p) = p(max{w1, 3w2} )2.
B) S(p) = p(min{w1, 3w2} )2.
C) S(p) = 10p.
D) S(p) =.
E) S(p) = min{ 5p, 45p}.
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Deck 21: A: Firm Supply
1
Suppose that Dent Carr's long-run total cost of repairing s cars per week is c(s) = 2s2 + 50. If the price he receives for repairing a car is $8, then in the long run, how many cars will he fix per week if he maximize profits?

A) 2
B) 0
C) 4
D) 3
E) 6
B
2
A firm has a long-run cost function, C(q) = 3q2 + 108. In the long run, this firm will supply a positive amount of output, as long as the price is greater than

A) $72.
B) $80.
C) $36.
D) $18.
E) $41.
C
3
A firm has a long-run cost function, C(q) = 8q2 + 72. In the long run, this firm will supply a positive amount of output, as long as the price is greater than

A) $48.
B) $104.
C) $96.
D) $24.
E) $53.
A
4
A firm has a long-run cost function, C(q) = 9q2 + 9. In the long run, this firm will supply a positive amount of output, as long as the price is greater than

A) $36.
B) $44.
C) $9.
D) $18.
E) $23.
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
5
Suppose that Dent Carr's long-run total cost of repairing s cars per week is c(s) = 2s2 + 18. If the price he receives for repairing a car is $8, then in the long run, how many cars will he fix per week if he maximize profits?

A) 4
B) 0
C) 3
D) 2
E) 6
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
6
Suppose that Dent Carr's long-run total cost of repairing s cars per week is c(s) = 3s2 + 75. If the price he receives for repairing a car is $36, then in the long run, how many cars will he fix per week if he maximize profits?

A) 0
B) 12
C) 9
D) 6
E) 18
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
7
Suppose that Dent Carr's long-run total cost of repairing s cars per week is c(s) = 3s2 + 108. If the price he receives for repairing a car is $24, then in the long run, how many cars will he fix per week if he maximize profits?

A) 0
B) 8
C) 4
D) 6
E) 12
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
8
In Problem 9, suppose that Irma's production function is f(x1, x2) <strong>In Problem 9, suppose that Irma's production function is f(x<sub>1</sub>, x<sub>2</sub>) = . If the price of factor 1 is w<sub>1</sub> = $3 and the price of factor 2 is w<sub>2</sub> = $6, then her supply function is given by the equation</strong> A) S(p) = 6p. B) S(p) =. C) S(p) = p(min{w<sub>1</sub>, 2w<sub>2</sub>} )<sup>2</sup>. D) S(p) = p(max{w<sub>1</sub>, 2w<sub>2</sub>} )<sup>2</sup>. E) S(p) = min{ 3p, 12p}. = . If the price of factor 1 is w1 = $3 and the price of factor 2 is w2 = $6, then her supply function is given by the equation

A) S(p) = 6p.
B) S(p) =.
C) S(p) = p(min{w1, 2w2} )2.
D) S(p) = p(max{w1, 2w2} )2.
E) S(p) = min{ 3p, 12p}.
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
9
A firm has a long-run cost function, C(q) = 4q2 + 4. In the long run, this firm will supply a positive amount of output, as long as the price is greater than

A) $8.
B) $4.
C) $24.
D) $16.
E) $13.
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
10
A firm has a long-run cost function, C(q) = 8q2 + 288. In the long run, this firm will supply a positive amount of output, as long as the price is greater than

A) $200.
B) $192.
C) $96.
D) $48.
E) $101.
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
11
In Problem 9, suppose that Irma's production function is f(x1, x2) <strong>In Problem 9, suppose that Irma's production function is f(x<sub>1</sub>, x<sub>2</sub>) . If the price of factor 1 is w<sub>1</sub> = $3 and the price of factor 2 is w<sub>2</sub> = $9, then her supply function is given by the equation</strong> A) S(p) = p(min{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. B) S(p) = 6p. C) S(p) =. D) S(p) = p(max{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. E) S(p) = min{ 3p, 27p}. . If the price of factor 1 is w1 = $3 and the price of factor 2 is w2 = $9, then her supply function is given by the equation

A) S(p) = p(min{w1, 3w2} )2.
B) S(p) = 6p.
C) S(p) =.
D) S(p) = p(max{w1, 3w2} )2.
E) S(p) = min{ 3p, 27p}.
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
12
In Problem 9, suppose that Irma's production function is f(x1, x2) <strong>In Problem 9, suppose that Irma's production function is f(x<sub>1</sub>, x<sub>2</sub>) . If the price of factor 1 is w<sub>1</sub> = $2 and the price of factor 2 is w<sub>2</sub> = $15, then her supply function is given by the equation</strong> A) S(p) =. B) S(p) = p(max{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. C) S(p) = p(min{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. D) S(p) = 7p. E) S(p) = min{ 2p, 45p}. . If the price of factor 1 is w1 = $2 and the price of factor 2 is w2 = $15, then her supply function is given by the equation

A) S(p) =.
B) S(p) = p(max{w1, 3w2} )2.
C) S(p) = p(min{w1, 3w2} )2.
D) S(p) = 7p.
E) S(p) = min{ 2p, 45p}.
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
13
Suppose that Dent Carr's long-run total cost of repairing s cars per week is c(s) = 3s2 + 108. If the price he receives for repairing a car is $24, then in the long run, how many cars will he fix per week if he maximize profits?

A) 0
B) 4
C) 6
D) 8
E) 12
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
14
In Problem 9, suppose that Irma's production function is f(x1, x2) <strong>In Problem 9, suppose that Irma's production function is f(x<sub>1</sub>, x<sub>2</sub>) . If the price of factor 1 is w<sub>1</sub> = $2 and the price of factor 2 is w<sub>2</sub> = $6, then her supply function is given by the equation</strong> A) S(p) = p(max{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. B) S(p) = 4p. C) S(p) = p(min{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. D) S(p) =. E) S(p) = min{ 2p, 18p}. . If the price of factor 1 is w1 = $2 and the price of factor 2 is w2 = $6, then her supply function is given by the equation

A) S(p) = p(max{w1, 3w2} )2.
B) S(p) = 4p.
C) S(p) = p(min{w1, 3w2} )2.
D) S(p) =.
E) S(p) = min{ 2p, 18p}.
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
15
In Problem 9, suppose that Irma's production function is f(x1, x2) <strong>In Problem 9, suppose that Irma's production function is f(x<sub>1</sub>, x<sub>2</sub>) . If the price of factor 1 is w<sub>1</sub> = $5 and the price of factor 2 is w<sub>2</sub> = $15, then her supply function is given by the equation</strong> A) S(p) = p(max{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. B) S(p) = p(min{w<sub>1</sub>, 3w<sub>2</sub>} )<sup>2</sup>. C) S(p) = 10p. D) S(p) =. E) S(p) = min{ 5p, 45p}. . If the price of factor 1 is w1 = $5 and the price of factor 2 is w2 = $15, then her supply function is given by the equation

A) S(p) = p(max{w1, 3w2} )2.
B) S(p) = p(min{w1, 3w2} )2.
C) S(p) = 10p.
D) S(p) =.
E) S(p) = min{ 5p, 45p}.
Unlock Deck
Unlock for access to all 15 flashcards in this deck.
Unlock Deck
k this deck
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Unlock Deck
Unlock for access to all 15 flashcards in this deck.
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