Fundamentals of Heat and Mass Transfer7th EditionBergman, Theodore L./ Publisher: John Wiley & Sons IncISBN: 9780470917855
Fundamentals of Heat and Mass Transfer
Solutions for Fundamentals of Heat and Mass Transfer
Problem 2.1P:
Assume steady-state, one-dimensional heat conduction through the axisymmetric shape shown below....Problem 2.2P:
Assume steady-state, one-dimensional conduction in the axisymmetric object below, which is insulated...Problem 2.3P:
A hot water pipe with outside radius r, has a temperature r1 A thick insulation, applied to reduce...Problem 2.4P:
A spherical shell with inner radius r1 and outer radius r2 has surface temperatures T1 and T2....Problem 2.5P:
Assume steady-state, one-dimensional heat conduction through the symmetric shape shown. Assuming...Problem 2.6P:
A composite rod consists of two different materials, A and B, each of length 0.5L. The thermal...Problem 2.7P:
A solid, truncated cone serves as a support for a system that maintains the top (truncated) face of...Problem 2.8P:
To determine the effect of the temperature dependence of the thermal conductivity on the temperature...Problem 2.9P:
A young engineer is asked to design a thermal protection barrier for a sensitive electronic device...Problem 2.10P:
A one-dimensional plane wall of thickness 2L=100mm experiences uniform thermal energy generation of...Problem 2.11P:
Consider steady-state conditions for one-dimensional conduction in a plane wall having a thermal...Problem 2.12P:
Consider a plane wall 100 mm thick and of thermal conductivity 100W/mK. Steady-state conditions are...Problem 2.13P:
A cylinder of radius ro, length L, and thermal conductivity k is immersed in a fluid of convection...Problem 2.14P:
In the two-dimensional body illustrated, the gradient at surface A is found to be T/y=30K/m. What...Problem 2.15P:
Consider the geometry of Problem 2.14 for the case where the thermal conductivity varies with...Problem 2.16P:
Steady-state, one-dimensional conduction occurs in a rod of constant thermal conductivity k and...Problem 2.17P:
An apparatus for measuring thermal conductivity employs an electrical heater sandwiched between two...Problem 2.18P:
An engineer desires to measure the thermal conductivity of an aerogel material. It is expected that...Problem 2.19P:
Consider a 300mm300mm window in an aircraft. For a temperature difference of 80C from the inner to...Problem 2.20P:
Consider a small but known volume of metal that has a large thermal conductivity. Since the thermal...Problem 2.21P:
Use INT to perform the following tasks. Graph the thermal conductivity of pure copper, 2024...Problem 2.22P:
Calculate the thermal conductivity of air, hydrogen, and carbon dioxide at 300K, assuming ideal gas...Problem 2.23P:
A method for determining the thermal conductivity k and the specific heat cp of a material is...Problem 2.24P:
Compare and contrast the heat capacity cp of common brick, plain carbon steel, engine oil, water,...Problem 2.25P:
A cylindrical rod of stainless steel is insulated on its exterior surface except for the ends. The...Problem 2.26P:
At a given instant of time, the temperature distribution within an infinite homogeneous body is...Problem 2.27P:
A pan is used to boil water by placing it on a stove, from which heat is transferred at a fixed rate...Problem 2.28P:
Uniform internal heat generation at q=5107W/m3 is occurring in a cylindrical nuclear reactor fuel...Problem 2.29P:
Consider a one-dimensional plane wall with constant properties and uniform internal generation q.....Problem 2.30P:
The steady-state temperature distribution in a one-dimensional wall of thermal conductivity 50W/mK...Problem 2.31P:
The temperature distribution across a wall 0.3 m thick at a certain instant of time is T(x)=a+bx+c2,...Problem 2.34P:
One-dimensional, steady-state conduction with uniform internal energy generation occurs in a plane...Problem 2.35P:
Derive the heat diffusion equation, Equation 2.26, for cylindrical coordinates beginning with the...Problem 2.36P:
Derive the heat diffusion equation, Equation 2.29. for spherical coordinates beginning with the...Problem 2.37P:
The steady-state temperature distribution in a semi-transparent material of thermal conductivity k...Problem 2.38P:
One-dimensional, steady-state conduction with no energy generation is occurring in a cylindrical...Problem 2.39P:
One-dimensional, steady-state conduction with no energy generation is occurring in a spherical shell...Problem 2.40P:
The steady-state temperature distribution in a one-dimensional wall of thermal conductivity k and...Problem 2.43P:
cylindrical system illustrated has negligible variation of temperature in the r- and z-directions....Problem 2.44P:
Beginning with a differential control volume in the form of a cylindrical shell, derive the heat...Problem 2.47P:
For a long circular tube of inner and outer radii r1 and r2, respectively, uniform temperatures T1...Problem 2.48P:
Passage of an electric current through a long conducting rod of radius ri and thermal conductivity...Problem 2.49P:
Two-dimensional. steady-state conduction occurs in a hollow cylindrical solid of thermal...Problem 2.50P:
An electric cable of radius r1 and thermal conductivity ke is enclosed by an insulating sleeve whose...Problem 2.51P:
A spherical shell of inner and outer radii ri and ro, respectively. contains heat-dissipating...Problem 2.52P:
A chemically reacting mixture is stored in a thin-walled spherical container of radius r1=200mm, and...Problem 2.53P:
A thin electrical heater dissipating 4000W/m2 is sandwiched between two 25-mm-thick plates whose...Problem 2.54P:
The one-dimensional system of mass M with constant properties and no internal heat generation shown...Problem 2.55P:
Consider a one-dimensional plane wall of thickness 2L. The surface at x=L is subjected to convective...Problem 2.56P:
A large plate of thickness 2L is at a uniform temperature of Ti=200C, when it is suddenly quenched...Problem 2.57P:
The plane wall with constant properties and no internal heat generation shown in the figure is...Problem 2.58P:
Consider the steady-state temperature distributions within a composite wall composed of Material A...Problem 2.59P:
A plane wall has constant properties, no internal heat generation. and is initially at a uniform...Problem 2.60P:
A plane wall with constant properties is initially at a uniform temperature TO. Suddenly, the...Problem 2.61P:
Consider the conditions associated with Problem 2.60, but now with a convection process for which...Problem 2.62P:
Consider the steady-state temperature distribution within a composite wall composed of Materials A...Problem 2.63P:
A spherical particle of radius r1 experiences uniform thermal generation at a rate of q.. The...Problem 2.65P:
A plane wall of thickness L=0.1m experiences uniform volumetric heating at a rate q.. One surface of...Problem 2.67P:
A composite one-dimensional plane wall is of overall thickness 2L. Material A spans the domain Lx0...Browse All Chapters of This Textbook
Chapter 1 - IntroductionChapter 2 - Introduction To ConductionChapter 3 - One-dimensional, Steady-state ConductionChapter 4 - Two-dimensional, Steady-state ConductionChapter 5 - Transient ConductionChapter 6 - Introduction To ConvectionChapter 7 - External FlowChapter 8 - Internal FlowChapter 9 - Free ConvectionChapter 10 - Boiling And Condensation
Book Details
Completely updated, the seventh edition provides engineers with an in-depth look at the key concepts in the field. It incorporates new discussions on emerging areas of heat transfer, discussing technologies that are related to nanotechnology, biomedical engineering and alternative energy. The example problems are also updated to better show how to apply the material. And as engineers follow the rigorous and systematic problem-solving methodology, they'll gain an appreciation for the richness and beauty of the discipline.
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