A parking garage charges ​$1.18 for the first hour and ​$0.50 for each additional hour or...

Isa owns a parking garage in downtown Colombia. He charges $5.00 per hour. The company has...

Isa owns a parking garage in downtown Colombia. He charges $5.00 per hour. The company has total costs of $550 when 50 parking stalls/spots are occupied and $650 when 100 parking stalls/spots are occupied within the hour. Find the profit function of the company operating this parking package. Note: Assume the functions are linear.

Tyrell needs to call a plumber. RotoPlumb charges $75 for the first half hour of the...

Tyrell needs to call a plumber. RotoPlumb charges $75 for the first half hour of the work and $30 for each additional half hour. Just Plumbing charges $45 for every half hour of work. Which plumbing company should Tyrell Choose if the job takes the given amount of time? 1 hour    6 hours For what time will both companies charge the same amount.

A university spent $1.4 million to install solar panels atop a parking garage. These panels will...

A university spent $1.4 million to install solar panels atop a parking garage. These panels will have a capacity of 900 kilowatts (kW) and have a life expectancy of 20 years. Suppose that the discount rate is 10%, that electricity can be purchased at $0.20 per kilowatt-hour (kWh), and that the marginal cost of electricity production using the solar panels is zero. Hint: It may be easier to think of the present value of operating the solar panels for 1...

A university spent $1.4 million to install solar panels atop a parking garage These panels will...

A university spent $1.4 million to install solar panels atop a parking garage These panels will have a capacity of 400 kilowatts (kW) and have a life expectancy of 20 years. Suppose that the discount rate is 10%, that electricity can be purchased at $0.30 per kilowatt-hour (kWh), and that the marginal cost of electricity production using the solar panels is zero. Hint: It may be easier to think of the present value of operating the solar panels for 1...

A university spent $1.7 million to install solar panels atop a parking garage. These panels will...

A university spent $1.7 million to install solar panels atop a parking garage. These panels will have a capacity of 900 kilowatts (kW) and have a life expectancy of 20 years. Suppose that the discount rate is 30%, that electricity can be purchased at $0.10 per kilowatt-hour (kWh), and that the marginal cost of electricity production using the solar panels is zero. Hint: It may be easier to think of the present value of operating the solar panels for 1...

A university spent $1.4 million to install solar panels atop a parking garage. These panels will...

A university spent $1.4 million to install solar panels atop a parking garage. These panels will have a capacity of 900 kilowatts (kW) and have a life expectancy of 20 years. Suppose that the discount rate is 10%, that electricity can be purchased at $0.20 per kilowatt-hour (kWh), and that the marginal cost of electricity production using the solar panels is zero. Hint: It may be easier to think of the present value of operating the solar panels for 1...

A university spent $1.8 million to install solar panels atop a parking garage. These panels will...

A university spent $1.8 million to install solar panels atop a parking garage. These panels will have a capacity of 400 kilowatts (kW) and have a life expectancy of 20 years. Suppose that the discount rate is 20%, that electricity can be purchased at $0.10 per kilowatt-hour (kWh), and that the marginal cost of electricity production using the solar panels is zero. Hint: It may be easier to think of the present value of operating the solar panels for 1...

A university spent $1.3 million to install solar panels atop a parking garage. These panels will...

A university spent $1.3 million to install solar panels atop a parking garage. These panels will have a capacity of 400 kilowatts (kW) and have a life expectancy of 20 years. Suppose that the discount rate is 20%, that electricity can be purchased at $0.20 per kilowatt-hour (kWh), and that the marginal cost of electricity production using the solar panels is zero. Hint: It may be easier to think of the present value of operating the solar panels for 1...

1. A suburban tennis club rents its courts for $25 per person per hour. John’s demand...

1. A suburban tennis club rents its courts for $25 per person per hour. John’s demand curve for court time is P= 50 − 0.25Q, where Q is measured in hours per year. (1.2)Assuming there were no other tennis clubs in town, what is the maximum annual membership fee he would be willing to pay for the right to buy court time for $25/hour? (1.3)What is the value of the consumer surplus received by John, if pays the membership fee...

Marc owns a landscaping business. For each lawn, he charges $75 plus $30 per hour of...

Marc owns a landscaping business. For each lawn, he charges $75 plus $30 per hour of work. A linear equation that expresses the total amount of money Marc earns per lawn is y=75+30x. What are the independent and dependent variables? What is the y-intercept and the slope? Select the correct answer below: A. The independent variable (x) is the amount of time Marc works a property. The dependent variable (y) is the amount, in dollars, Marc earns for a lawn....