Solve the following IVP showing details of your work: x2 y” + 3 x y’ + y = 0 y (1) = 3.6 y’ (1) = 0.4
Solve the following IVP showing details of your work: x2 y” + 3 x y’ +...
a.) Solve the following IVP. X !=3x,-13x2 X, (O)=3 X2 = 5x +X2 X₂(0)=-10 b.) solve the following IVP. X;= -X, +(3/2) X2 X, (2)=1 X 2 = (-%6) xx-2x2 X2 (2)=0
a) Solve the IVP: (x + y)2dx + (2xy + x2 - 1)dy = 0 ; y(1) = 1 b) Find a continuous solution satisfying the given De subject to initial condition. dy + 2x y = f(x), f(x) = fx, 05x<1 y(0) = 2 dx 10, 821 c) Solve the Bernoulli's equation xy' + y = x²y2
Solve the following IVP: dy/dx + 4y - e^-x = 0 ; y(0) = 4/3
Looking for help solving the following question: Question 28: Solve the following IVP showing the first six non-zero terms explicitly. x" – 2tx' + x = 0, x(0) = 1, x'(0) = -1
3. [6 marks] Solve the IVP: cos x + y sin x = sinº x, y(0) = 2.
Find the P.S. of the IVP: x2 + 2xy + y2 1+ (x + y)2 y(x = 0) = 4 Primes denote derivatives WRT X. (y'a
2) 17pt) Solve the following IVP. Xi' = -X1 + (3/2)x2 x1(2) = 1 xz' = (-1/6)x1 - 2x2 X2(2) = 0
Determine the length x in meters. Showing your work, find the values of x, y, and z that solve the following system 0.3904x - 0.5183y - 0.7807z = 0 -0.4880x - 0.6047y + 0.7682z = 0
Solve for å by showing all the details. a) tan” x — 4 sinº x = 0 where 0 < x <a b) sec(sin-1 Væ2 – 1) c) In(x) – In(3x2 + 2) = ln(K)
Solve each differential equation. (Don't use the Laplace transform. 3. IVP: y + cos(x + y) + (x – y + cos(x + y)) = 0, y(0) = 7. If the equation is exact equation, then solve it. If not, find only an exact equation.