3. Find u(x, y) that is a solution to the partial differential equation.8² u8² uəx²dy²with boundary conditions.u(0, y) = 0,4u(3, y) = 0,+0u(x,0) = sin(7),дидуly=0= 0

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Answered: 3. Find u(x, y) that is a solution to…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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Let y= a,+ azt+ azt? + azt³ +a4t“ + agt5+ a,t6 + d'y ..... be the solution of dy +y=tan-'t dt ; у(0) %3D1, у' (0) — — 1 dt? tan-lt- 1 1 t5 + 1 t'+ = t - 3 Write ao
Identify the Cauchy-Euler equation. d*y ,3 dy 52 dz + 8y = 0 - dz4 O 2a° y" – 7xy' + 6y = 0 O a*y" + 2x?y" – y' + 5y = 0 d³y d²y dy 2x2. dr2 + 5x- + 3y = 0 dx dr3 « Previous a. hp
Let y= ao+a,t+ a,t + azt³ + a4t“ + aşt + agt° + be the solution of ..... d?y dy +t +y=tan-lt ; у(0) %3D 1, у'(О) — — 1 dt? dt 1 1 t3 + t5 3 1 tan 't=t- + 7 - Write ao
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The differential equation can be written in differential form: where M(x, y) = y + 2y¹ = (y² + 6x) y' M(x,y) dx + N(x, y) dy = 0 and N(x, y) The term M(x, y) dx + N(x, y) dy becomes an exact differential if the left hand side above is divided by y7. Integrating that new equation, the solution of the differential equation is = = C.
Let y=ao+aqt+ a,t?+ a3t³ + a4t* + aşt³ + agt® + d?y .... be the solution of dy +y=tan-'t ; у(0) %3D 1, у'(0)%3 — 1 +t dt? dt tan-'t=t- 1 1 t5 1 t'+ + 3 Write ao

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3. Find u(x, y) that is a solution to the partial differential equation J²u J²u 1- + əx² dy² with boundary conditions u(0, y) = 0, u(3, y) = 0, 0 u(r, 0) = sin(7), ди dy ly-0 = 0