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157.118.3.12
1297704062 2011/02/15 02:21: 2
\left[ \begin{array}{c|c|c|c|c|c|c|c|c|c|c|c|c|c|c|c}
F_{ij}^{ \left( 2 \right) } + \Gamma E_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
&
&
&-E_{ij}^{ \left( 2 \right) }
&
&
&
&
&
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
&-i\Gamma \sum_{j=1}^{N_{1}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \\
\hline
F_{ij}^{ \left( 2 \right) } + \Gamma E_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
&
&
&-E_{ij}^{ \left( 2 \right) }
&
&
&
&
&
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
&-i\Gamma \sum_{j=1}^{N_{1}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \\
\hline
F_{ij}^{ \left( 2 \right) } + \Gamma E_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
&
&
&-E_{ij}^{ \left( 2 \right) }
&
&
&
&
&
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
&-i\Gamma \sum_{j=1}^{N_{1}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \\
\hline
F_{ij}^{ \left( 2 \right) } + \Gamma E_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
& F_{ij}^{ \left( 2 \right) }
&
&
&-E_{ij}^{ \left( 2 \right) }
&
&
&
&
&
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 2 \right)} + N_{4}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
&-i\Gamma \sum_{j=1}^{N_{1}^{\left( 2 \right)}} E_{ij}^{ \left( 2 \right) } \\
\hline
&
& F_{ij}^{ \left( 1 \right) }
&
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
&-E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& \sum_{j=1}^{N_{6}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l'} \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
& \sum_{j=1}^{N_{8}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l } \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
& \\
\hline
&
& F_{ij}^{ \left( 1 \right) }
&
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
&-E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& \sum_{j=1}^{N_{6}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l'} \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
& \sum_{j=1}^{N_{8}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l } \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
& \\
\hline
&
& F_{ij}^{ \left( 1 \right) }
&
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
&-E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& \sum_{j=1}^{N_{6}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l'} \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
& \sum_{j=1}^{N_{8}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l } \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
& \\
\hline
&
& F_{ij}^{ \left( 1 \right) }
&
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
&-E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& \sum_{j=1}^{N_{6}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l'} \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
& \sum_{j=1}^{N_{8}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l } \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
& \\
\hline
&
& F_{ij}^{ \left( 1 \right) }
&
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
&-E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& \sum_{j=1}^{N_{6}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l'} \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
& \sum_{j=1}^{N_{8}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l } \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
& \\
\hline
&
& F_{ij}^{ \left( 1 \right) }
&
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
&-E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& \sum_{j=1}^{N_{6}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l'} \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
& \sum_{j=1}^{N_{8}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l } \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
& \\
\hline
&
& F_{ij}^{ \left( 1 \right) }
&
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
&-E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& \sum_{j=1}^{N_{6}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l'} \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
& \sum_{j=1}^{N_{8}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l } \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
& \\
\hline
&
& F_{ij}^{ \left( 1 \right) }
&
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
&-E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) } - \Gamma E_{ij}^{ \left( 1 \right) }
& F_{ij}^{ \left( 1 \right) }
& \sum_{j=1}^{N_{6}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l'} \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
& \sum_{j=1}^{N_{8}^{\left( 1 \right)}} \left[ F_{ij}^{\left( 1 \right)} + i\lambda E_{ij}^{\left( 1 \right)} \right] \times e^{-i\lambda l } \times \frac{\cosh{\lambda \left( z_j +1 \right)} }{\cosh{\lambda }}
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta z_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \frac{\Delta x_j}{\Delta s_j} \right]
&-i\Gamma \times \left[ \sum_{j=1}^{N_{2}^{\left( 1 \right)} + N_{4}^{\left( 1 \right)}} E_{ij}^{ \left( 1 \right) } \times \left\{ \left( x_j - \bar{x}_0 \right) \frac{\Delta x_j}{\Delta s_j} + \left( z_j - \bar{z}_0 \right) \frac{\Delta z_j}{\Delta s_j} \right\} \right]
& \\
\hline
&-i\Delta z_j
&
&-i\Delta z_j
&
& i\Delta z_j
&
& i\Delta z_j
&
&
&
&
& \alpha_1
& k_{xz}
&-k_{x\theta}
& \sum_{j=1}^{N_{1}^{\left( 3 \right)}} \Delta z_j + \sum_{j=1}^{N_{2}^{\left( 3 \right)}} \Delta z_j \\
\hline
&-i\Delta x_j
&
&-i\Delta x_j
&
& i\Delta x_j
&
& i\Delta x_j
&
&
&
&
&-k_{xz}
&-\alpha_2
& \alpha_3
& \sum_{j=1}^{N_{1}^{\left( 3 \right)}} \Delta x_j + \sum_{j=1}^{N_{2}^{\left( 3 \right)}} \Delta x_j \\
\hline
&-i \left[ \left( x_j - \bar{x}_0 \right) \Delta x_j + \left( z_j - \bar{z}_0 \right) \Delta z_j \right]
&
&-i \left[ \left( x_j - \bar{x}_0 \right) \Delta x_j + \left( z_j - \bar{z}_0 \right) \Delta z_j \right]
&
& i \left[ \left( x_j - \bar{x}_0 \right) \Delta x_j + \left( z_j - \bar{z}_0 \right) \Delta z_j \right]
&
& i \left[ \left( x_j - \bar{x}_0 \right) \Delta x_j + \left( z_j - \bar{z}_0 \right) \Delta z_j \right]
&
&
&
&
&-k_{\theta x}
& \alpha_4
&-\alpha_5
& \sum_{j=1}^{N_{1}^{\left( 3 \right)}} \left\{ \left( x_j - \bar{x}_0 \right) \Delta x_j + \left( z_j - \bar{z}_0 \right) \Delta z_j \right\} + \sum_{j=1}^{N_{2}^{\left( 3 \right)}} \left\{ \left( x_j - \bar{x}_0 \right) \Delta x_j + \left( z_j - \bar{z}_0 \right) \Delta z_j \right\} \\
\hline
\frac{-C_E}{\left( 1+iC_E \right) l_c } \times \Delta x_j
&
&
&
&
&
&
&
&
&
&
&
&
&
&
& 1
\end{array} \right]
8
______(________________________)
<IMG SRC="../cgi-cache/20110215_021643.gif">
______
正常に処理されました
20110215_021643
http://sites.google.com/site/ravens0nest/Home/windows/latex
Tue Feb 15 02:21:02 2011