Mathematics, 06.05.2020 05:37 ladypink94
The temperature distribution u(x, t) in a one-dimensional wire of length L satisfies the 1-D heat equation: partial differential u/partial differential t = k partial differential^2 u/partial differential x^2 + u 0 lessthanorequalto x lessthanorequalto L. The temperature of the wire is prescribed at both ends: u(0, t) = 0, u(L, t) = T_L. (a) Solve for the steady distribution u(x, 0) = f(x). (b) We define a new function u(x, t) = u(x, t) = u_s(x). What is the partial differential equation that governs the evolution of u(x, t)? What are the boundary conditions and initial condition satisfied by u(x, t)? (c) We use separation of variables to solve for u(x, t). First, look for solutions of the form u(x, t) = u(x, t) = phi(x)G(t). What are the equations satisfied by the functions phi (x) and phi (t)? (d) Solve for G(t). (e) What are the boundary conditions on the function phi (x)? Solve for phi(x). (f) Express the general solution for u(x, t) as an infinite series in terms of an infinite number of unknown coefficients that depend on the initial temperature profile. (g) Solve for u(x, t) for an initial temperature distribution u(x,00 = f(x) = T_0
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The temperature distribution u(x, t) in a one-dimensional wire of length L satisfies the 1-D heat eq...
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