- 24.24.1: A steady-state heat balance for a rod can be represented as d2T dx2...
- 24.24.2: Repeat Prob. 24.1 but with the right end insulated and the left end...
- 24.24.3: Use the shooting method to solve 7 d2 y dx2 2 dy dx y + x = 0 with ...
- 24.24.4: Solve Prob. 24.3 with the finite-difference approach using x = 2.
- 24.24.5: The following nonlinear differential equation was solved in Example...
- 24.24.6: Develop an M-file to implement the shooting method for a linear sec...
- 24.24.7: Develop an M-file to implement the finite-difference approach for s...
- 24.24.8: An insulated heated rod with a uniform heat source can be modeled w...
- 24.24.9: Repeat Prob. 24.8, but for the following spatially varying heat sou...
- 24.24.11: Compound A diffuses through a 4-cm-long tube and reacts as it diffu...
- 24.24.12: The following differential equation describes the steady-state conc...
- 24.24.13: A series of first-order, liquid-phase reactions create a desirable ...
- 24.24.14: A biofilm with a thickness Lf (cm), grows on the surface of a solid...
- 24.24.15: A cable is hanging from two supports at A and B (Fig. P24.15). The ...
- 24.24.16: The basic differential equation of the elastic curve for a simply s...
- 24.24.17: In Prob. 24.16, the basic differential equation of the elastic curv...
- 24.24.18: Under a number of simplifying assumptions, the steady-state height ...
- 24.24.19: In Prob. 24.18, a linearized groundwater model was used to simulate...
- 24.24.21: Suppose that the position of a falling object is governed by the fo...
- 24.24.22: As in Fig. P24.22, an insulated metal rod has a fixed temperature (...
- 24.24.23: Perform the same calculation as in Prob. 24.22, but for the case wh...

# Solutions for Chapter 24: Boundary-Value Problems

## Full solutions for Applied Numerical Methods W/MATLAB: for Engineers & Scientists | 3rd Edition

ISBN: 9780073401102

Solutions for Chapter 24: Boundary-Value Problems

Get Full SolutionsSince 21 problems in chapter 24: Boundary-Value Problems have been answered, more than 9819 students have viewed full step-by-step solutions from this chapter. Chapter 24: Boundary-Value Problems includes 21 full step-by-step solutions. Applied Numerical Methods W/MATLAB: for Engineers & Scientists was written by and is associated to the ISBN: 9780073401102. This expansive textbook survival guide covers the following chapters and their solutions. This textbook survival guide was created for the textbook: Applied Numerical Methods W/MATLAB: for Engineers & Scientists , edition: 3.