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Kinetics of Materials

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Page 120 — 4 corrections

Ex. 5.7

change to parts (a) "Use the ... " and (b) "Show that ..."

Eq. 5.111

$\displaystyle c(x,t) = \frac{\nttl }{a \sqrt{\pi}} \left[ \int_{-a}^{0} \left(1... ...zeta}{a}\right) e^{-(x - \zeta)^2/\lambda^2} \frac{d \zeta}{\lambda} \right]$

Unnumbered equation after Eq. 5.111

$\begin{displaymath} \begin{split} c(x,t) = & -\frac{\nttl }{a \sqrt{\pi}} \left[... ..._{(x-a)/\lambda}^{x/\lambda} u e^{-u^2} d u \right] \end{split}\end{displaymath}$

Eq. 5.114

$\begin{displaymath} \begin{split} c(x,t) = & \frac{\nttl }{2 a} \left\{ \erf \le... ...da})^2} + e^{-[(x-a)/\lambda]^2} \right] \right\} \end{split}\end{displaymath}$

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Kinetics of Materials 2006-01-04