Fundamentals of Heat and Mass Transfer
7th Edition
ISBN: 9780470501979
Author: Frank P. Incropera, David P. DeWitt, Theodore L. Bergman, Adrienne S. Lavine
Publisher: Wiley, John & Sons, Incorporated
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Chapter 5, Problem 5.30P
Consider the system of Problem 5.1 where the temperature of the plate is spacewise isothermal during the transient process.
- Obtain an expression for the temperature of the plate as a function of time
- Determine the thermal time constant and the steady-state temperature for a 12-mm-thick plate of pure copper when
- For the conditions of part as well as for
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The boiling temperature of nitrogen at atmospheric pressure at sea level (1 atm) is -196°C. Therefore, nitrogen is commonly used in low temperature scientific studies since the temperature of liquid nitrogen in a tank open to the atmosphere will remain constant at -196°C until the liquid nitrogen in the tank is depleted. Any heat transfer to the tank will result in the evaporation of some liquid nitrogen, which has a heat of vaporization of 198 kJ/kg and a density of 810 kg/m3 at 1 atm. Consider a 3-m-diameter spherical tank initially filled with liquid nitrogen at 1 atm and 196°C. The tank is exposed to 22°C ambient air with a heat transfer coefficient of 22 W/m2 · °C. The temperature of the thin-shelled spherical tank is observed to be almost the same as the temperature of the nitrogen inside. Disregarding any radiation heat exchange, determine the rate of evaporation of the liquid nitrogen in the tank as a result of the heat transfer from the ambient air in kg/sec. Answer in…
To ensure that the balls bounce consistently, tennis balls in Wimbledon are stored at exactly 68oF. A ballboy keeps a ball in his pocket to ensure that the ball can be given to the player quickly. If the ball is observed to warm up to 70oF after one minute, how long will it take for the ball to be within 20oF of the ballboy's body temperature (98.6oF) after he puts it in his pocket? It can be assumed that the temperature in the pocket is also the normal body temperature.
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[Density for copper = 8890 kg/m3, Specific heat, Ccopper = 385 J/kg.°C;Coefficient of thermal expansion, αCopper = 18.0 × 10-6 (°C)-1].
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Chapter 5 Solutions
Fundamentals of Heat and Mass Transfer
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