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A 120-V motor has mechanical power output of 2.00 hp. It is 82.0% efficient in converting power that it takes in by electrical...Asked by priya
A 120-V motor has mechanical power output of 2.20 hp. It is 92.0% efficient in converting power that it takes in by electrical transmission into mechanical power.
(a) Find the current in the motor (A)
(b) Find the energy delivered to the motor by electrical transmission in 2.90 h of operation. (J)
(c) If the electric company charges $0.160/kWh, what does it cost to run the motor for 2.90 h?
(a) Find the current in the motor (A)
(b) Find the energy delivered to the motor by electrical transmission in 2.90 h of operation. (J)
(c) If the electric company charges $0.160/kWh, what does it cost to run the motor for 2.90 h?
Answers
Answered by
Henry
a. See previous post: 9-5-13,12:33 AM.
b. 1784 Watts = 1784 J/s.
Energy=1784J/s * 2.9h*3600s/h=18,625 J.
c. (1.784*2.9)kWh*0.160/kWh = $0.83
b. 1784 Watts = 1784 J/s.
Energy=1784J/s * 2.9h*3600s/h=18,625 J.
c. (1.784*2.9)kWh*0.160/kWh = $0.83
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