distribusipanas01

1. \textbf{Penyelesaian :}\\
2. \begin{enumerate}
3. \item \textbf{Separasi Variabel}. Jika penyelesaiannya
4. \begin{equation}
5. U(x,t) = X(x) T(t)
6. \end{equation}
7. maka
8. \begin{eqnarray*}
9. U(x,t) &=& X' T \quad U_{xx} = X''T \\
10. U_t    &=& XT'
11. \end{eqnarray*}
12. Persamaan \ref{8.21} menjadi
13. \begin{equation*}
14. XT' = 4 X''T = 2^2 X''T
15. \end{equation*}
16. Akibatnya,
17. \begin{equation*}
18. \frac{T'}{2^2 T} = \frac{X''}{X} = -\alpha^2
19. \end{equation*}
20. \item \textbf{Persamaan Diferensial Biasa}
21. \begin{eqnarray}
22. X'' + \alpha^2 X     &=& 0\\
23. T'  + \alpha^2 2^2 T &=& 0
24. \end{eqnarray}
25. \item \textbf{Syarat Homogen}
26. \begin{equation*}
27. 0 = U(0,t) = X(0) T(t)
28. \end{equation*}
29. Karena $T(t)\neq 0$ maka $X(0)=0$
30. \item \textbf{Persamaan Diferensial} dalam $X$
31. \begin{equation}
32. X'' + \alpha^2 X = 0, \quad X(0)=0
33. \end{equation}
34. Penyelesaian umum,
35. \begin{equation*}
36. X(x) = c_1 \cos \alpha x + c_2 \sin \alpha x
37. \end{equation*}
38. Karena $X=0$ diperoleh
39. \begin{eqnarray*}
40. X   &=& c_1 \cos (\alpha .0) + c_2 \sin (\alpha. 0) =0 \\
41. c_1 &=& 0
42. \end{eqnarray*}
43. Akibatnya,
44. \begin{equation*}
45. X_\alpha(x) = \sin \alpha x , \alpha > 0
46. \end{equation*}
47. \item \textbf{Persamaan Diferensial} dalam $T$
48. \begin{equation}
49. T' + \alpha^2 . 2^2 T = 0
50. \end{equation}
51. Penyelesaiannya,
52. \begin{equation*}
53. T_\alpha(t) = e^{-4\alpha^2t}
54. \end{equation*}
55. \item \textbf{Himpunan Penyelesaian}
56. \begin{eqnarray*}
57. U_{\alpha}(x,t) &=& X_\alpha (x) T_\alpha (t)\\
58.                &=& e^{-4\alpha^2t} \sin \alpha x ,\alpha >0
59. \end{eqnarray*}
60. \item \textbf{Superposisi Integrasi}
61. \begin{equation}
62. U(x,t) = \int_0^{\infty} B(\alpha) e^{-4\alpha^2t} \sin \alpha x \text{\, d}\alpha
63. \end{equation}
64. dengan
65. \begin{eqnarray*}
66. B(\alpha) &=& \frac{2}{\pi} \int_0^{\infty} f(z) \sin \alpha z \text{\, d}z\\
67.          &=& \frac{2}{\pi} \int_0^{\infty} 1. \sin \alpha z \text{\, d}z\\
68.          &=& \frac{2}{\pi} \int_0^{\infty} e^{-sz} \sin \alpha z \text{\, d}z ; \quad s=0\\
69.          &=& \frac{2}{\pi} \left[\mathscr{L}\{\sin \alpha z\}\right] ; \quad s=0\\
70.          &=& \frac{2}{\pi}. \frac{\alpha}{\alpha^2+s^2}; \quad s=0\\
71.          &=& \frac{2}{\pi}. \frac{\alpha}{\alpha^2}\\
72.          &=& \frac{2}{\pi \alpha}
73. \end{eqnarray*}
74. Jadi,
75. \begin{eqnarray*}
76. U(x,t) &=& \int_0^{\infty} B(\alpha) e^{-4\alpha^2t} \sin \alpha x \text{\, d}\alpha\\
77.       &=& \frac{2}{\pi} \int_0^{\infty} \frac{\sin \alpha x}{\alpha} e^{-4\alpha^2t} \text{\, d}\alpha
78. \end{eqnarray*}
79. \end{enumerate}