3.15 (a,b) only cascade? 3,15. Solve the following equations using both the direct method and the...
3. Solve the following integral equations using Laplace transforms. (a) (t)= te! - 2e x(u)e"du (b) y(t) 1 - sinht +(1+T)y(t - T)dT. netions 3. Solve the following integral equations using Laplace transforms. (a) (t)= te! - 2e x(u)e"du (b) y(t) 1 - sinht +(1+T)y(t - T)dT. netions
please solve both 1&2 Solve the following differential equations using the Laplace transform method 1. x" + 4x = t, x(0) = 0, x'(0) = 1. 2. x" + 2x' + x = t?, x(0) = 0, x'(0) = 1
Please use the LaPlace Transform Method to solve both equations Differential Equations به الا وا/ ** را جی کے . (t) في * مل (ی) - X = 0 X(0) > 0 Sinat dx + ** dt 0 = (ه) و
Use the method for solving Bernoulli equations to solve the following differential equation. Use the method for solving Bernoulli equations to solve the following differential equation. dx dt 79 X + t' xº + - = 0 t C, where C is an arbitrary constant. Ignoring lost solutions, if any, an implicit solution in the form F(t,x) = C is (Type an expression using t and x as the variables.)
Problem # 1: (70 points) Solve the following problems (a) and (b) using Laplace Transform: a) (7 points) y(0)-y'(0)-0 y"(0)-1 b) (dX/d't) + 3 (dy/dt) + 3y-0 (7 points) (d'x/d't) +3y-te' x(0) = 0 x'(0) = 2 y(0) = 0 c) An nxn matrix A is said to be skew-symmetric if AT--A. If A is a 5x5 skew-symmetric matrix, show that 9detA)-0 (4 Points) d) Suppose A is a 5x5 matrix for which (detA) =-7, what is the value of...
Ordinary Differential Equations (a) Write a Python function implementing the 4'th order Runge-Kutta method. (b) Solve the following amusing variation on a pendulum problem using your routine. A pendulum is suspended from a sliding collar as shown in the diagram below. The system is at rest when an oscillating motion y(t) = Y sin (omega t) is imposed on the collar, starting at t = 0. The differential equation that describes the pendulum motion is given by: d^2 theta/dt^2 =...
Please solve using LaPlace Partial Fraction expansion for the following Equations (please write very neat, thank you!) d2y/dt+4dy/dt+3y=30 y(0)=20 y'(0)=12 and d2y/dt+3dy/dt+2y=24e^-4t y(0)=10 y'(0)=5
Only the matlab nlinear equations x 0.75 Determine the roots of these equations using: a) The Fixed-point iteration method. b) The Newton Raphson method. Employ initial guesses of x y 1.2 and perform the iterations until E.<10%. Note: You can use to solve the problems, but you should sol at least two full iterations manually. AB bl Du Thursd 30/3/ 1. For the displacement in Q3 y 10 e cos at 0 St S 4. a) Plot the displacement y...
Differential equations (3 points each) Solve the following differential equations using Laplace Transforms. Not credit will be given for using another method. a. y"-6y' + 13y = 0 y(0) 0 y'(0)--3 3. where f(t) =| y" +y=f(t) c. 1 y(0)=0 t < 2π y'(0)=1 π (3 points each) Solve the following differential equations using Laplace Transforms. Not credit will be given for using another method. a. y"-6y' + 13y = 0 y(0) 0 y'(0)--3 3. where f(t) =| y" +y=f(t)...
Solve using MAT-LAB codes: A. Solve the following difference equations using the sequential method: ylk] +1.5y[k-1]+0.5y[k-2] x[k]+ x[k-1] where 0.8 uk] and and y[-2] = y[ - 1] 0 xk] B. Plot the results for the range 0 s ks 20. Solve using MAT-LAB codes: A. Solve the following difference equations using the sequential method: ylk] +1.5y[k-1]+0.5y[k-2] x[k]+ x[k-1] where 0.8 uk] and and y[-2] = y[ - 1] 0 xk] B. Plot the results for the range 0 s...