Problem 1 ( A 30-seat turboprop airliner whose mass is 12,500 kg takes off from an airport and eventually achieves its cruising speed of 610 km/h at an altitude of 10,000 m. For g = 9.78 m/s, which of the following is true about the changes in the airliners kinetic energy and potential energy. A. AKE > APE Β. ΔΚΕ = ΔΡΕ C. AKE

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Chapter1: Units, Trigonometry. And Vectors
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Problem 1
A 30-seat turboprop airliner whose mass is 12,500 kg takes off from an airport and eventually
achieves its cruising speed of 610 km/h at an altitude of 10,000 m. For g = 9.78 m/s, which of
the following is true about the changes in the airliners kinetic energy and potential energy.
A. AKE > APE
B. AKE = APE
C. AKE < APE
D. Not enough information to determine.
Transcribed Image Text:Problem 1 A 30-seat turboprop airliner whose mass is 12,500 kg takes off from an airport and eventually achieves its cruising speed of 610 km/h at an altitude of 10,000 m. For g = 9.78 m/s, which of the following is true about the changes in the airliners kinetic energy and potential energy. A. AKE > APE B. AKE = APE C. AKE < APE D. Not enough information to determine.
Problem 4
A concentrating solar power collector system provides energy by heat transfer (heat input) to a
power cycle a rate of 3 MW. The cycle thermal efficiency, defined as the ratio of work output to
the heat input, is 32%. What is the work output, in MWh for 4380 hours of steady-state
operation? Note that the work is valued at $0.08/kWh.
A. 336 MWh
B. 4,205 MWh
C. 13,140 MWh
D. 41,063 MWh
Problem 5 (
A household has a 6m x 8m brick wall with a thickness of 25cm and a thermal conductivity of
0.69 W/m°C. During the winter, the temperature of the air inside the house is 25°C and the
average outdoor air temperature is 4°C. Determine the rate of heat transfer through the wall, in
W. (Choose nearest value)
A. 2082 W
B. 2782 W
C. 3782 W
D. 4782 W
Problem 6 (
An exposed 8 cm external diameter, 20 m long hot-water pipe at 80°C is losing heat to the
surrounding (outdoor) air by natural convection. The average outdoor temperature is 5°C. The
heat transfer coefficient is 25 W/m2°C. What heat loss by natural vection, in kW?
A. 9.4 W
B. 10.0 W
C. 10.4 W
D. 11.4 W
Problem 7 (
A spherical ball with a diameter of 10 cm has an outer surface that is maintained at a
temperature of 200°C. It is suspended in the middle of a room that has an average temperature
of 20°C. If the surface emissivity is 0.8, determine the rate of radiative heat transfer from the
ball to the room in W. (Choose the nearest value)
A. 2.3 W
B. 4.5 W
C. 19.4 W
D. 60.8 W
Transcribed Image Text:Problem 4 A concentrating solar power collector system provides energy by heat transfer (heat input) to a power cycle a rate of 3 MW. The cycle thermal efficiency, defined as the ratio of work output to the heat input, is 32%. What is the work output, in MWh for 4380 hours of steady-state operation? Note that the work is valued at $0.08/kWh. A. 336 MWh B. 4,205 MWh C. 13,140 MWh D. 41,063 MWh Problem 5 ( A household has a 6m x 8m brick wall with a thickness of 25cm and a thermal conductivity of 0.69 W/m°C. During the winter, the temperature of the air inside the house is 25°C and the average outdoor air temperature is 4°C. Determine the rate of heat transfer through the wall, in W. (Choose nearest value) A. 2082 W B. 2782 W C. 3782 W D. 4782 W Problem 6 ( An exposed 8 cm external diameter, 20 m long hot-water pipe at 80°C is losing heat to the surrounding (outdoor) air by natural convection. The average outdoor temperature is 5°C. The heat transfer coefficient is 25 W/m2°C. What heat loss by natural vection, in kW? A. 9.4 W B. 10.0 W C. 10.4 W D. 11.4 W Problem 7 ( A spherical ball with a diameter of 10 cm has an outer surface that is maintained at a temperature of 200°C. It is suspended in the middle of a room that has an average temperature of 20°C. If the surface emissivity is 0.8, determine the rate of radiative heat transfer from the ball to the room in W. (Choose the nearest value) A. 2.3 W B. 4.5 W C. 19.4 W D. 60.8 W
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