1.3 Temperature Increase due to Incandescent Lighting When energy is added to a fluid, the temperature of the fluid increases. An egua- tion describing this phenomenonis Q = M Cp AT where Q is the amount of energy added (joules) is the mass of the fluid (kg) Cp is the heat capacity of the fluid (joules/kg K) is the change in temperature (K, or °C) M AT A garage (24 ft * 24 ft * 10 ft) is illuminated by six 60-W incandescent bulbs. It is estimated that 90% of the energy to an incandescent bulb is dissipated as heat. If the bulbs are on for 3 hours, how much would the temperature in the garage increase because of the light bulbs (assuming no energy losses). Complete an Excel worksheet like the one illustrated in Figure 1.71 to answer this question. Potentially useful information: • Air density (approximate): 1.2kg/m • Air heat capacity (approximate): 1000 joules/kg K • 3.28 ft = 1m B CD 1 Temperature Change in a Garage When Lights Left On E -71 perature 2 culation. 3 Specified Information 4 Number of Bulbs: 5 Bulb Power: 60 W 6 Bulb Percent Power Loss as Heat: 90% 3 hrs 5760 ft 7 Bulbs on Time: 8 Garage Air Volume: 1.2 kg/m 1000 joules/kg K Air Density: 10 Air Heat Capacity: 11 12 Calculated Information 13 Total Bulb Power: 14 Total Bulb Power Lost as Heat: joules/second joules 15 Total Bulb Power Lost as Heat: 16 Total Bulb Energy Lost as Heat: m Garage Air Volume: Garage Air Mass: Temperature Change: 17 18 kg 19 K 20
1.3 Temperature Increase due to Incandescent Lighting When energy is added to a fluid, the temperature of the fluid increases. An egua- tion describing this phenomenonis Q = M Cp AT where Q is the amount of energy added (joules) is the mass of the fluid (kg) Cp is the heat capacity of the fluid (joules/kg K) is the change in temperature (K, or °C) M AT A garage (24 ft * 24 ft * 10 ft) is illuminated by six 60-W incandescent bulbs. It is estimated that 90% of the energy to an incandescent bulb is dissipated as heat. If the bulbs are on for 3 hours, how much would the temperature in the garage increase because of the light bulbs (assuming no energy losses). Complete an Excel worksheet like the one illustrated in Figure 1.71 to answer this question. Potentially useful information: • Air density (approximate): 1.2kg/m • Air heat capacity (approximate): 1000 joules/kg K • 3.28 ft = 1m B CD 1 Temperature Change in a Garage When Lights Left On E -71 perature 2 culation. 3 Specified Information 4 Number of Bulbs: 5 Bulb Power: 60 W 6 Bulb Percent Power Loss as Heat: 90% 3 hrs 5760 ft 7 Bulbs on Time: 8 Garage Air Volume: 1.2 kg/m 1000 joules/kg K Air Density: 10 Air Heat Capacity: 11 12 Calculated Information 13 Total Bulb Power: 14 Total Bulb Power Lost as Heat: joules/second joules 15 Total Bulb Power Lost as Heat: 16 Total Bulb Energy Lost as Heat: m Garage Air Volume: Garage Air Mass: Temperature Change: 17 18 kg 19 K 20
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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