2. Given the nonlinear equation: F(r,y,u, u, Uy) = ru, - (u,)2 – 2u = 0 with the Initial %3D condition: r(0, s) = zo(s) = s, y(0, s) %(s) = 8, u(0, s) = uo(s) = 0 a) Write the Charpit equations for F(r, y, u,p, q) 0, p u, q=Uy %3D %3D dr dy du F, (1), dt dp -F, - pF, (4), F, (2), dt = pF, + qF, (3), dt dq %3D -F, - qF. (5), dt dt b) Write all Initial conditions for r, y, u and p, q. (Do not use, ignore, the condition p(0, s) = po(s) = 0, q(0, s) = 40(s) = 0 which lead to the trivial solution u = 0. Use the other one.) c) Respectively find z(t, s), p(t, s), q(t, s), y(t, s), u(t, s) (in the given order) using the Initial conditions. d) Write the solution u interms of z and v: u(z. y).

Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
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please just solve questions  c) and d)

2. Given the nonlinear equation: F(x, y,u, u, Uy)
= ru, - (uy)? - 2u = 0 with the Initial
condition: r(0, s) = 2o(s) = 8, y(0, s) = %(s) = s, u(0, s) = uo(s) = 0
%3D
%3D
a) Write the Charpit equations for F(r, y, u, p, q) = 0, p = uz, = ly
de
dy
du
F, (1),
F, (2),
dt
= pF, + qF, (3),
dt
dt
dp
dq
-F, - pF.
dt
(4),
-F, - qF. (5),
dt
b) Write all Initial conditions for a, y, u and p, q. (Do not use, ignore, the condition
p(0, s) = po(s) = 0, q(0, s) = g0(s) = 0 which lead to the trivial solution u = 0. Use the
%3D
%3D
%3D
other one.)
c) Respectively find a(t, s), p(t, s), q(t, s), y(t, s), u(t, s) (in the given order) using the
Initial conditions.
d) Write the solution u interms of r and y: u(a, y).
Transcribed Image Text:2. Given the nonlinear equation: F(x, y,u, u, Uy) = ru, - (uy)? - 2u = 0 with the Initial condition: r(0, s) = 2o(s) = 8, y(0, s) = %(s) = s, u(0, s) = uo(s) = 0 %3D %3D a) Write the Charpit equations for F(r, y, u, p, q) = 0, p = uz, = ly de dy du F, (1), F, (2), dt = pF, + qF, (3), dt dt dp dq -F, - pF. dt (4), -F, - qF. (5), dt b) Write all Initial conditions for a, y, u and p, q. (Do not use, ignore, the condition p(0, s) = po(s) = 0, q(0, s) = g0(s) = 0 which lead to the trivial solution u = 0. Use the %3D %3D %3D other one.) c) Respectively find a(t, s), p(t, s), q(t, s), y(t, s), u(t, s) (in the given order) using the Initial conditions. d) Write the solution u interms of r and y: u(a, y).
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