Explore all topics
Start Free Trial
Need Help? Contact us
back arrowfull exam logo
search
ai logoChat with AI
Servicesarrow
Discoverarrow

Topics

Explore all topics
Discover more topics

Deck 13: Externalities and Public Goods

Full screen (f)
exit full mode
Question
Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D) <div style=padding-top: 35px> , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D) <div style=padding-top: 35px> . Finally, annual market demand (in thousands of tons) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D) <div style=padding-top: 35px> . Find the market supply curve.

A) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D) <div style=padding-top: 35px>
Use Space or
up arrow
down arrow
to flip the card.
Question
Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive price.</strong> A) $1,400 B) $920 C) $7,000 D) $1995 <div style=padding-top: 35px> , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive price.</strong> A) $1,400 B) $920 C) $7,000 D) $1995 <div style=padding-top: 35px> . Finally, annual market demand (in thousands of tons) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive price.</strong> A) $1,400 B) $920 C) $7,000 D) $1995 <div style=padding-top: 35px> . Find the competitive price.

A) $1,400
B) $920
C) $7,000
D) $1995
Question
Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive quantity. </strong> A) 108,000 B) 60,000 C) 500 D) 0 <div style=padding-top: 35px> by the formula . Finally, annual market demand (in thousands of tons) is given by the <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive quantity. </strong> A) 108,000 B) 60,000 C) 500 D) 0 <div style=padding-top: 35px> formula . Find the competitive quantity. <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive quantity. </strong> A) 108,000 B) 60,000 C) 500 D) 0 <div style=padding-top: 35px>

A) 108,000
B) 60,000
C) 500
D) 0
Question
Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D) <div style=padding-top: 35px> , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D) <div style=padding-top: 35px> . Finally, annual market demand (in thousands of tons) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D) <div style=padding-top: 35px> . Find the function for the marginal social cost.

A) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D) <div style=padding-top: 35px>
Question
Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the competitive price that would prevail without externalities</strong> A) $1,400 B) $1657.14 C) $685.71 D) $1,200 <div style=padding-top: 35px> , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the competitive price that would prevail without externalities</strong> A) $1,400 B) $1657.14 C) $685.71 D) $1,200 <div style=padding-top: 35px> . Finally, annual market demand (in thousands of tons) is given by the formula. <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the competitive price that would prevail without externalities</strong> A) $1,400 B) $1657.14 C) $685.71 D) $1,200 <div style=padding-top: 35px> . Find the competitive price that would prevail without externalities

A) $1,400
B) $1657.14
C) $685.71
D) $1,200
Question
Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the efficient quantity that involves no externalities</strong> A) 34,286 B) 60,000 C) 1,200 D) 90,000 <div style=padding-top: 35px> , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the efficient quantity that involves no externalities</strong> A) 34,286 B) 60,000 C) 1,200 D) 90,000 <div style=padding-top: 35px> . Finally, annual market demand (in thousands of tons) is given by the formula. <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the efficient quantity that involves no externalities</strong> A) 34,286 B) 60,000 C) 1,200 D) 90,000 <div style=padding-top: 35px> . Find the efficient quantity that involves no externalities

A) 34,286
B) 60,000
C) 1,200
D) 90,000
Question
Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . Find the efficient volume, D.</strong> A) 90 B) 95 C) 115 D) 345 <div style=padding-top: 35px> and your cost is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . Find the efficient volume, D.</strong> A) 90 B) 95 C) 115 D) 345 <div style=padding-top: 35px> . Find the efficient volume, D.

A) 90
B) 95
C) 115
D) 345
Question
Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels,B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels,B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . What is your marginal cost at the socially efficient noise level?</strong> A) $0.75 B) $0.29 C) $0.24 D) $0.25 <div style=padding-top: 35px> and your cost is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels,B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . What is your marginal cost at the socially efficient noise level?</strong> A) $0.75 B) $0.29 C) $0.24 D) $0.25 <div style=padding-top: 35px> . What is your marginal cost at the socially efficient noise level?

A) $0.75
B) $0.29
C) $0.24
D) $0.25
Question
Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . What is the efficient Pigouvian tax?</strong> A) $0.75 per decibel B) $0.29 per decibel C) $0.24 per decibel D) $0.25 per decibel <div style=padding-top: 35px> and your cost is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . What is the efficient Pigouvian tax?</strong> A) $0.75 per decibel B) $0.29 per decibel C) $0.24 per decibel D) $0.25 per decibel <div style=padding-top: 35px> . What is the efficient Pigouvian tax?

A) $0.75 per decibel
B) $0.29 per decibel
C) $0.24 per decibel
D) $0.25 per decibel
Question
Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . With an efficient Pigouvian tax, what noise level will your neighbor choose?</strong> A) 90 decibels B) 95 decibels C) 115 decibels D) 345 decibels <div style=padding-top: 35px> and your cost is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . With an efficient Pigouvian tax, what noise level will your neighbor choose?</strong> A) 90 decibels B) 95 decibels C) 115 decibels D) 345 decibels <div style=padding-top: 35px> . With an efficient Pigouvian tax, what noise level will your neighbor choose?

A) 90 decibels
B) 95 decibels
C) 115 decibels
D) 345 decibels
Question
Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . With an efficient Pigouvian tax, how much will your neighbor pay in taxes in total?</strong> A) $22.50 B) $23.75 C) $28.75 D) $71.25 <div style=padding-top: 35px> and your cost is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . With an efficient Pigouvian tax, how much will your neighbor pay in taxes in total?</strong> A) $22.50 B) $23.75 C) $28.75 D) $71.25 <div style=padding-top: 35px> . With an efficient Pigouvian tax, how much will your neighbor pay in taxes in total?

A) $22.50
B) $23.75
C) $28.75
D) $71.25
Question
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) <div style=padding-top: 35px> . Patrols cost $25 per hour. Find the marginal social benefit function.

A) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) <div style=padding-top: 35px>
Question
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. What is the socially efficient level of security?</strong> A) 15 person-hours of patrols per week B) 7 person-hours of patrols per week C) 8 person-hours of patrols per week D) 16 person-hours of patrols per week <div style=padding-top: 35px> . Patrols cost $25 per hour. What is the socially efficient level of security?

A) 15 person-hours of patrols per week
B) 7 person-hours of patrols per week
C) 8 person-hours of patrols per week
D) 16 person-hours of patrols per week
Question
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. If each store provided security independently, how much would each store purchase?</strong> A) 15 person-hours of patrols per week B) 7 person-hours of patrols per week C) 8 person-hours of patrols per week D) 16 person-hours of patrols per week <div style=padding-top: 35px> . Patrols cost $25 per hour. If each store provided security independently, how much would each store purchase?

A) 15 person-hours of patrols per week
B) 7 person-hours of patrols per week
C) 8 person-hours of patrols per week
D) 16 person-hours of patrols per week
Question
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) <div style=padding-top: 35px> . Patrols cost $25 per hour. Find the marginal social benefit function.

A) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) <div style=padding-top: 35px>
Question
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. What is the socially efficient level of security (rounded to the nearest whole number)?</strong> A) 88 person-hours of patrols per week B) 168 person-hours of patrols per week C) 22 person-hours of patrols per week D) 97 person-hours of patrols per week <div style=padding-top: 35px> . Patrols cost $25 per hour. What is the socially efficient level of security (rounded to the nearest whole number)?

A) 88 person-hours of patrols per week
B) 168 person-hours of patrols per week
C) 22 person-hours of patrols per week
D) 97 person-hours of patrols per week
Question
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. If each store provided security independently, how much would each store provide (rounded to the nearest whole number)?</strong> A) 88 person-hours of patrols per week B) 168 person-hours of patrols per week C) 22 person-hours of patrols per week D) 97 person-hours of patrols per week <div style=padding-top: 35px> . Patrols cost $25 per hour. If each store provided security independently, how much would each store provide (rounded to the nearest whole number)?

A) 88 person-hours of patrols per week
B) 168 person-hours of patrols per week
C) 22 person-hours of patrols per week
D) 97 person-hours of patrols per week
Unlock Deck
Sign up to unlock the cards in this deck!
Unlock Deck
Unlock Deck
1/17
auto play flashcards
Play
simple tutorial
Full screen (f)
exit full mode
Deck 13: Externalities and Public Goods
1
Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D) , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D) . Finally, annual market demand (in thousands of tons) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D) . Find the market supply curve.

A) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D)
B) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D)
C) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D)
D) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the market supply curve.</strong> A) B) C) D)

2
Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive price.</strong> A) $1,400 B) $920 C) $7,000 D) $1995 , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive price.</strong> A) $1,400 B) $920 C) $7,000 D) $1995 . Finally, annual market demand (in thousands of tons) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive price.</strong> A) $1,400 B) $920 C) $7,000 D) $1995 . Find the competitive price.

A) $1,400
B) $920
C) $7,000
D) $1995
$1,400
3
Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive quantity. </strong> A) 108,000 B) 60,000 C) 500 D) 0 by the formula . Finally, annual market demand (in thousands of tons) is given by the <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive quantity. </strong> A) 108,000 B) 60,000 C) 500 D) 0 formula . Find the competitive quantity. <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars)for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the competitive quantity. </strong> A) 108,000 B) 60,000 C) 500 D) 0

A) 108,000
B) 60,000
C) 500
D) 0
60,000
4
Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D) , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D) . Finally, annual market demand (in thousands of tons) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D) . Find the function for the marginal social cost.

A) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D)
B) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D)
C) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D)
D) <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula . Find the function for the marginal social cost.</strong> A) B) C) D)
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
5
Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the competitive price that would prevail without externalities</strong> A) $1,400 B) $1657.14 C) $685.71 D) $1,200 , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the competitive price that would prevail without externalities</strong> A) $1,400 B) $1657.14 C) $685.71 D) $1,200 . Finally, annual market demand (in thousands of tons) is given by the formula. <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the competitive price that would prevail without externalities</strong> A) $1,400 B) $1657.14 C) $685.71 D) $1,200 . Find the competitive price that would prevail without externalities

A) $1,400
B) $1657.14
C) $685.71
D) $1,200
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
6
Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the efficient quantity that involves no externalities</strong> A) 34,286 B) 60,000 C) 1,200 D) 90,000 , where Qmill indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the efficient quantity that involves no externalities</strong> A) 34,286 B) 60,000 C) 1,200 D) 90,000 . Finally, annual market demand (in thousands of tons) is given by the formula. <strong>Three hundred paper mills compete in the paper market. The total cost of production (in dollars) for each mill is given by the formula , where Q<sup>mill</sup> indicates the mills annual production in thousands of tons. The marginal external cost of a mill's production (in dollars) is given by the formula . Finally, annual market demand (in thousands of tons) is given by the formula. . Find the efficient quantity that involves no externalities</strong> A) 34,286 B) 60,000 C) 1,200 D) 90,000 . Find the efficient quantity that involves no externalities

A) 34,286
B) 60,000
C) 1,200
D) 90,000
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
7
Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . Find the efficient volume, D.</strong> A) 90 B) 95 C) 115 D) 345 and your cost is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . Find the efficient volume, D.</strong> A) 90 B) 95 C) 115 D) 345 . Find the efficient volume, D.

A) 90
B) 95
C) 115
D) 345
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
8
Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels,B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels,B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . What is your marginal cost at the socially efficient noise level?</strong> A) $0.75 B) $0.29 C) $0.24 D) $0.25 and your cost is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels,B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . What is your marginal cost at the socially efficient noise level?</strong> A) $0.75 B) $0.29 C) $0.24 D) $0.25 . What is your marginal cost at the socially efficient noise level?

A) $0.75
B) $0.29
C) $0.24
D) $0.25
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
9
Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . What is the efficient Pigouvian tax?</strong> A) $0.75 per decibel B) $0.29 per decibel C) $0.24 per decibel D) $0.25 per decibel and your cost is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . What is the efficient Pigouvian tax?</strong> A) $0.75 per decibel B) $0.29 per decibel C) $0.24 per decibel D) $0.25 per decibel . What is the efficient Pigouvian tax?

A) $0.75 per decibel
B) $0.29 per decibel
C) $0.24 per decibel
D) $0.25 per decibel
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
10
Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . With an efficient Pigouvian tax, what noise level will your neighbor choose?</strong> A) 90 decibels B) 95 decibels C) 115 decibels D) 345 decibels and your cost is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . With an efficient Pigouvian tax, what noise level will your neighbor choose?</strong> A) 90 decibels B) 95 decibels C) 115 decibels D) 345 decibels . With an efficient Pigouvian tax, what noise level will your neighbor choose?

A) 90 decibels
B) 95 decibels
C) 115 decibels
D) 345 decibels
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
11
Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . With an efficient Pigouvian tax, how much will your neighbor pay in taxes in total?</strong> A) $22.50 B) $23.75 C) $28.75 D) $71.25 and your cost is <strong>Your neighbor likes to blast 1970's rock music and the louder the better. The loud music imposes a cost on you because it disrupts your study of economics. Let D stand for the volume of his music in decibels, B for his benefits and C for your costs, where B and C are in dollars. For any given volume, D, your neighbor's benefit is and your cost is . With an efficient Pigouvian tax, how much will your neighbor pay in taxes in total?</strong> A) $22.50 B) $23.75 C) $28.75 D) $71.25 . With an efficient Pigouvian tax, how much will your neighbor pay in taxes in total?

A) $22.50
B) $23.75
C) $28.75
D) $71.25
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
12
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) . Patrols cost $25 per hour. Find the marginal social benefit function.

A) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D)
B) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D)
C) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D)
D) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D)
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
13
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. What is the socially efficient level of security?</strong> A) 15 person-hours of patrols per week B) 7 person-hours of patrols per week C) 8 person-hours of patrols per week D) 16 person-hours of patrols per week . Patrols cost $25 per hour. What is the socially efficient level of security?

A) 15 person-hours of patrols per week
B) 7 person-hours of patrols per week
C) 8 person-hours of patrols per week
D) 16 person-hours of patrols per week
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
14
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. If each store provided security independently, how much would each store purchase?</strong> A) 15 person-hours of patrols per week B) 7 person-hours of patrols per week C) 8 person-hours of patrols per week D) 16 person-hours of patrols per week . Patrols cost $25 per hour. If each store provided security independently, how much would each store purchase?

A) 15 person-hours of patrols per week
B) 7 person-hours of patrols per week
C) 8 person-hours of patrols per week
D) 16 person-hours of patrols per week
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
15
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D) . Patrols cost $25 per hour. Find the marginal social benefit function.

A) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D)
B) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D)
C) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D)
D) <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. Find the marginal social benefit function.</strong> A) B) C) D)
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
16
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. What is the socially efficient level of security (rounded to the nearest whole number)?</strong> A) 88 person-hours of patrols per week B) 168 person-hours of patrols per week C) 22 person-hours of patrols per week D) 97 person-hours of patrols per week . Patrols cost $25 per hour. What is the socially efficient level of security (rounded to the nearest whole number)?

A) 88 person-hours of patrols per week
B) 168 person-hours of patrols per week
C) 22 person-hours of patrols per week
D) 97 person-hours of patrols per week
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
17
Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula <strong>Four stores have a problem with theft and security is a public good. Let S stand for the number of personhours of security patrols per week. The marginal benefit of security patrols to each of the stores is given by the formula . Patrols cost $25 per hour. If each store provided security independently, how much would each store provide (rounded to the nearest whole number)?</strong> A) 88 person-hours of patrols per week B) 168 person-hours of patrols per week C) 22 person-hours of patrols per week D) 97 person-hours of patrols per week . Patrols cost $25 per hour. If each store provided security independently, how much would each store provide (rounded to the nearest whole number)?

A) 88 person-hours of patrols per week
B) 168 person-hours of patrols per week
C) 22 person-hours of patrols per week
D) 97 person-hours of patrols per week
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Unlock Deck
k this deck
locked card icon
Unlock Deck
Unlock for access to all 17 flashcards in this deck.
Examlex
Examlex
Work With Us
Policies
Download the App
Scan to downloadDownload the App
qr-code
Links
Links
Work With Us
Download the App

Scan to downloadDownload the App
qr-code

Copyright © 2025 Examlex LLC.
  • facebook-footer
  • instagram-footer
  • x-footer
  • tiktok
  • Linktree