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Ou(x.y)@uxy)o for the temperature 2. Solve Laplace's equation distribution in a rectangular plate...
3. Consider the Laplace's equation on a rectangular domain subject to the following boundary conditions that...
3. Consider the Laplace's equation on a rectangular domain subject to the following boundary conditions that represents the steady-state heating of a plate. A temperature probe shows that (1/2, 1/4) = 0. Solve this problem using the method of separation of variables. (7) byllyy = 0 0 <I<41 and O y <21 U-(0,y)=0, 1-(41, y) = cos(2), 4(1,0) = cos(2), 4(1,2)=0. (total 25 marks
Solve Laplace's equation
Solve Laplace's equation, \(\frac{\partial^{2} u}{\partial x^{2}}+\frac{\partial^{2} u}{\partial y^{2}}=0,0<x<a, 0<y<b\), (see (1) in Section 12.5) for a rectangular plate subject to the given boundary conditions.$$ \begin{gathered} \left.\frac{\partial u}{\partial x}\right|_{x=0}=u(0, y), \quad u(\pi, y)=1 \\ u(x, 0)=0, \quad u(x, \pi)=0 \\ u(x, y)=\square+\sum_{n=1}^{\infty}(\square \end{gathered} $$
Solve Laplace's equation on
Solve Laplace's equation on \(-\pi \leq x \leq \pi\) and \(0 \leq y \leq 1\),$$ \frac{\partial^{2} u}{\partial x^{2}}+\frac{\partial^{2} u}{\partial y^{2}}=0 $$subject to periodic boundary conditions in \(x\),$$ \begin{aligned} u(-\pi, y) &=u(\pi, y) \\ \frac{\partial u}{\partial x}(-\pi, y) &=\frac{\partial u}{\partial x}(\pi, y) \end{aligned} $$and the Dirichlet conditions in \(y\),$$ u(x, 0)=h(x), \quad u(x, 1)=0 $$
1. Consider a thin rectangular plate in the ry-plane, the figure. The PDE describing the temperature...
1. Consider a thin rectangular plate in the ry-plane, the figure. The PDE describing the temperature of the plate is the heat equation shown in as 0 xa, 0< y < b, t>0. D + at where u(x, y, t) is the temperature at point (x, y) diffusivity at time t andD> 0 is the thermal (a) Suppose that the solution to the PDE (once we impose initial and boundary con ditions) reaches equilibrium when t o, that is there...
1. Consider Poisson's equation Au=Vu=-1, with A=Ví = & +i domain shown in Figure 1 in the Lx M rectangular Figu...
1. Consider Poisson's equation Au=Vu=-1, with A=Ví = & +i domain shown in Figure 1 in the Lx M rectangular Figure 1: Damain with the boundary conditions in Q1 with boundary canditians u(0, y) = u(L, y)= u(z,0) 0 and u(r, M) 1 (a) Asume M L and determine the values af uat points A, B, C and D (b) Generalize your answer in part (a) for M#L 2. Consider Laplace's equation Au = V2u = 0, with A =...
Solve the following Laplace's equation in the semi-annular plate (on the right) Urr + - +...
Solve the following Laplace's equation in the semi-annular plate (on the right) Urr + - + = 0, a<r<b, O<O<T, u(a,0) = (1-0), u(b, ) = 0, ur,0) = 0, ur.) = 0. 4= (1-1)
Problem 2 (Chapter 7; 60 points) Solve the following Laplace's equation in a parallelepiped, care...
Problem 2 (Chapter 7; 60 points) Solve the following Laplace's equation in a parallelepiped, carefully explaining all steps. Make sure to check for zero eigenvalues. Note that the single non-homogeneous boundary condition is on the y-plane (y D). The boundary conditions are simple enough so that all Fourier coefficient integrals are easily calculated. You don't have to give details in the solution of the two LHBVPs, but make sure to check all boundary conditions after you find the solution: ou...
Solve heat equation in a rectangle du = k ( ou + dou), 0<x<t, 0<y< 1,...
Solve heat equation in a rectangle du = k ( ou + dou), 0<x<t, 0<y< 1, t> 0 u(x, 0, 1) = 0, uy(x,1,1) = 0, with boundary conditions u(O, y,t) = 0, u(r, y, t) = 0, and initial condition u(x, y,0) = (y – į v?) sin(2x).
= A square plate is bounded by x = 0, x = a, y = 0...
= A square plate is bounded by x = 0, x = a, y = 0 and y = a. Apply the Laplace's equation əzu 22u + = 0 дх2 ду2 to determine the potential distribution u(x,y) over the plate, subject to the following boundary conditions u(0, y) = 0, uſa, y) = 0, 0<y <a πχ 2πχ u(x,0) = 0, u(x, a) = u, (sin + 2 sin 0 < x < a, where uo is a constant. Also...
Problem 2. (15 points) Solve the following Laplace's equation in a cube as outlined below. au...
Problem 2. (15 points) Solve the following Laplace's equation in a cube as outlined below. au au au 2,2 + a2 + a2 = 0, on 0<x<1, 0<y<1, 0<?<1, (0, y, z) = (1, y, z) = 0, (x, 0, 2) = u(x, 1, ) = 0, (x, y,0) = 0, u(x,y, 1) = x. (a) Seek a solution of the form u(x, y, z) = F(x) G(v) H(-). Show that with the appropriate choice of separation constants, you can...
3. Consider the Laplace's equation on a rectangular domain subject to the following boundary conditions that represents the steady-state heating of a plate. A temperature probe shows that (1/2, 1/4) = 0. Solve this problem using the method of separation of variables. (7) byllyy = 0 0 <I<41 and O y <21 U-(0,y)=0, 1-(41, y) = cos(2), 4(1,0) = cos(2), 4(1,2)=0. (total 25 marks
1. Consider a thin rectangular plate in the ry-plane, the figure. The PDE describing the temperature of the plate is the heat equation shown in as 0 xa, 0< y < b, t>0. D + at where u(x, y, t) is the temperature at point (x, y) diffusivity at time t andD> 0 is the thermal (a) Suppose that the solution to the PDE (once we impose initial and boundary con ditions) reaches equilibrium when t o, that is there...
1. Consider Poisson's equation Au=Vu=-1, with A=Ví = & +i domain shown in Figure 1 in the Lx M rectangular Figure 1: Damain with the boundary conditions in Q1 with boundary canditians u(0, y) = u(L, y)= u(z,0) 0 and u(r, M) 1 (a) Asume M L and determine the values af uat points A, B, C and D (b) Generalize your answer in part (a) for M#L 2. Consider Laplace's equation Au = V2u = 0, with A =...
Solve the following Laplace's equation in the semi-annular plate (on the right) Urr + - + = 0, a<r<b, O<O<T, u(a,0) = (1-0), u(b, ) = 0, ur,0) = 0, ur.) = 0. 4= (1-1)
Problem 2 (Chapter 7; 60 points) Solve the following Laplace's equation in a parallelepiped, carefully explaining all steps. Make sure to check for zero eigenvalues. Note that the single non-homogeneous boundary condition is on the y-plane (y D). The boundary conditions are simple enough so that all Fourier coefficient integrals are easily calculated. You don't have to give details in the solution of the two LHBVPs, but make sure to check all boundary conditions after you find the solution: ou...
Solve heat equation in a rectangle du = k ( ou + dou), 0<x<t, 0<y< 1, t> 0 u(x, 0, 1) = 0, uy(x,1,1) = 0, with boundary conditions u(O, y,t) = 0, u(r, y, t) = 0, and initial condition u(x, y,0) = (y – į v?) sin(2x).
= A square plate is bounded by x = 0, x = a, y = 0 and y = a. Apply the Laplace's equation əzu 22u + = 0 дх2 ду2 to determine the potential distribution u(x,y) over the plate, subject to the following boundary conditions u(0, y) = 0, uſa, y) = 0, 0<y <a πχ 2πχ u(x,0) = 0, u(x, a) = u, (sin + 2 sin 0 < x < a, where uo is a constant. Also...
Problem 2. (15 points) Solve the following Laplace's equation in a cube as outlined below. au au au 2,2 + a2 + a2 = 0, on 0<x<1, 0<y<1, 0<?<1, (0, y, z) = (1, y, z) = 0, (x, 0, 2) = u(x, 1, ) = 0, (x, y,0) = 0, u(x,y, 1) = x. (a) Seek a solution of the form u(x, y, z) = F(x) G(v) H(-). Show that with the appropriate choice of separation constants, you can...
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