1. Solve the following ODE for x(t) in terms of m, k, A, B, and ?....

Use the Laplace transform to solve the ODE, m x ″ + k x = 1...

Use the Laplace transform to solve the ODE, m x ″ + k x = 1 , x ( 0 ) = 0 , x ′ ( 0 ) = 0 , assuming that m and k are positive numbers.

Suppose y(t) is governed by ODE t3y'''(t) + 6t2y''(t) + 4ty'(t) = 0. Solve this ODE...

Suppose y(t) is governed by ODE t3y'''(t) + 6t2y''(t) + 4ty'(t) = 0. Solve this ODE by performing the following procedure: 1) Let x = ln(t) and set y(t) = φ(x) = φ(ln(t)), 2) Use chain rule of differentiation to calculate derivatives y in terms derivatives of φ, 3) by appropriate substitution, construct an ODE governing φ(x) and solve it, 4) use this φ(x) to get back y(t).

Solve the ODE/ IVP (y' + 1) = (x + y)^m / ((x + y)^n +...

Solve the ODE/ IVP (y' + 1) = (x + y)^m / ((x + y)^n + (x + y)^p) hint: z = x + y ; y' = z' - 1 Not sure how to start. Thanks in advance!

Solve the following differential equations 1. cos(t)y' - sin(t)y = t^2 2. y' - 2ty =...

Solve the following differential equations 1. cos(t)y' - sin(t)y = t^2 2. y' - 2ty = t Solve the ODE 3. ty' - y = t^3 e^(3t), for t > 0 Compare the number of solutions of the following three initial value problems for the previous ODE 4. (i) y(1) = 1 (ii) y(0) = 1 (iii) y(0) = 0 Solve the IVP, and find the interval of validity of the solution 5. y' + (cot x)y = 5e^(cos x),...

Consider ODE: (xy-1)dy+x^2dx=0. Prove that φ (x, y) = 1/x it is an integrating factor. Solve...

Consider ODE: (xy-1)dy+x^2dx=0. Prove that φ (x, y) = 1/x it is an integrating factor. Solve the ODE.

In this problem, you will solve the following first order linear ODE: y' + (1/x)y =...

In this problem, you will solve the following first order linear ODE: y' + (1/x)y = (2/x2 )+ 1 with y(1) = 1. a) Solve the complimentary equation b) Use the solution to the complimentary equation to find the general solution c) Use the initial conditions to find the specific solution

Consider the ‘spring-mass system’ represented by an ODE x′′ (t) + 16x(t) = 5 sin 4t...

Consider the ‘spring-mass system’ represented by an ODE x′′ (t) + 16x(t) = 5 sin 4t with ICs: x(0) = 2, x′ (0) = 1. Answer the questions (a)–(c): (a) Is there damping in the system? Why or why not? (b) Is there resonance in the system? Why or why not? (c) Solve the ODE.

Solve the IVP with Cauchy-Euler ODE: x^2 y''+ xy'−16y = 0; y(1) = 4, y'(1) =...

Solve the IVP with Cauchy-Euler ODE: x^2 y''+ xy'−16y = 0; y(1) = 4, y'(1) = 0

Solve the IVP with Cauchy-Euler ODE: x^2 y''+3xy'+4y=0; y(1)=0, y’(1)=−2

Solve the IVP with Cauchy-Euler ODE: x^2 y''+3xy'+4y=0; y(1)=0, y’(1)=−2

Using Matlab, solve the following ODE using Euler's method... I have to perform solve the ODE...

Using Matlab, solve the following ODE using Euler's method... I have to perform solve the ODE with both step sizes and plot both on the same graph. y'=1/y, Initial Condition y(0)=1. step size = 0.1 and 0.01 The interval is from 0 to 1. UPDATE: I actually figured it out myself! THANKS