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Suppose 01(t) and 02 (t) are both solutions to the (linear, homogeneous) second order differential equation:...
Le-t are solutions of a second-order /2e5t and y2(t) Suppose y1(t) = homogeneous linear ODE on R. Which one of the following is also a solution to the same ODE? y(t) e5t-2 y(t) ee y(t) e5t e 1 y(t) 2e5t Le-t are solutions of a second-order /2e5t and y2(t) Suppose y1(t) = homogeneous linear ODE on R. Which one of the following is also a solution to the same ODE? y(t) e5t-2 y(t) ee y(t) e5t e 1 y(t) 2e5t
Note that yı(t) = Vt and yz(t) = t-1 are solutions of the linear homogeneous differential equation 2t’y" + 3ty' – y = 0. Use variation of parameters to find the general solution of the nonhomogeneous differential equation 2t’y" + 3ty' - y = 4t² + 4t. 8 o* Civt + Cat-1 + + 35 OB. 4 Civt + Cat-1+ t + 2 t2 9 of Civt + Cat-1 + t2 + 2t 9 00 Civt + Cut-+ 4 OE...
Given that 6e22 and 5e 3T are solutions of a second order linear homogeneous differential equation with constant coefficients, find this differential equation. a) y" – 1ly' + 30y = 0 b) c) d) e) y" + 1ly' + 30y = 0 y" – y' – 6y = 0 y" + 1ly' – 30y = 0 y" + y' - 6y=0 f) None of the above.
QUESTION 10 Note that yı(t) Vt and y(t) =t-1 are solutions of the linear homogeneous differential equation 2t²Y" + 3ty' – y=0. Use variation of parameters to find the general solution of the nonhomogeneous differential equation 2t’y" + 3ty' - y = 4t? + 4t. 8 2 OA Civt + Cat-1 + 74 35 oCivt+Cet-1 + 4 9 t2 + 2t OC Civt + Cat-1 + 4 9 t2 + 2 5 2 OD. 8 Civt + Cat-1 + t2...
5) Consider the second order linear non-homogeneous differential equation tay" - 2y = 3t2 - 1,t> 0. a) Verify that y(t) = t- and y(t) = t-1 satisfy the associated homogeneous equation tay" - 2y = 0. (5 points) b) Find a particular solution to the non-homogeneous differential equation. (10 points) c) Find the general solution to the non-homogeneous differential equation. (5 points)
2. a) (7 pnts) Solve the second order homogeneous linear differential equation y" - y = 0. b) (6 pnts) Without any solving, explain how would you change the above differential equation so that the general solution to the homogeneous equation will become c cos x + C sinx. c) (7 pnts) Solve the second order linear differential equation y" - y = 3e2x by using Variation of Parameters. 5. a) (7 pnts) Determine the general solution to the system...
Consider a second-order linear homogeneous equation Suppose that are two solutions. Show that is also a solution to the equation (plug it in and use the fact that and are solutions). We were unable to transcribe this imageWe were unable to transcribe this imageZhg + th = Eh We were unable to transcribe this imageWe were unable to transcribe this image
Two of the solutions of a linear homogeneous differential equation with constant coefficients are yi = -21%e-32 and Y2 = 4sin(31). What is the minimum possible order of the differential equation? 02 3 4 5 O 6 O 7
2. (Sturm-Liouville Theory) Consider the following linear homogeneous second-order differential equation and boundary conditions v(T where a and b are finite, p(x), p(x,)) are real and continuous on [a, b), and p(x),w(x) > 0 on a,b]. Show that two distinct solutions to this ODE, Pm(z) and (x), are orthogonal to each other on the interval [a,b]. That is, prove the following relationship 0 2. (Sturm-Liouville Theory) Consider the following linear homogeneous second-order differential equation and boundary conditions v(T where a...
Write a second order, constant-coefficient, homogeneous, linear differential equation in y which has a single critical point y = 0 and for which the phase portrait is a spiral source. y+