By considering Burgers' equation 26 i2xx = 0 and its linearly independent solutions x1(t) = 1...
Consider the vectors х() 3 (, 1)T х°() — (?, 26)Т. and i) Compute the Wronskian of X1 and X2 at t ii) In what intervals are X1 and X2 linearly independent? iii What conclusion can be drawn about the coefficients in the systems of homogeneous differential equation satisfied by X1 and X2? v) Find this system of equations and verify the conclusions of part iii Consider the vectors х() 3 (, 1)T х°() — (?, 26)Т. and i) Compute...
Two linearly independent solutions of the differential equation y''+4y'+4y=0 are of Two linearly independent solutions the differential equation are 2x y,=e Y2 = e 2x / - 2x 6 Y,=e 92= xe 2x @g, = e - 2x -2x , 92= xe 2x y = e 2x Y 2 = xe²x e 9,=02x 1 Y 2 = e- 2x
The indicated functions are known linearly independent solutions of the associated homogeneous differential equation on (0, 0). Find the general solution of the given nonhomogeneous equation. *?y" + xy' + (x2 - 1)y = x3/2; Y1 = x-1/2 cos(x), Y2 = x-1/2 sin(x) y(x) =
5) (20 points) a) Show that the vectors x1 = (1, 1, 0)T , x2 = (1, 0, 1)T , x3 = (1, 0, 0)T are linearly independent. Do they form a basis of R3 ? Explain. b) Find an orthonormal basis of R3 using x1 = (1, 1, 0)T , x2 = (1, 0, 1)T and x3 = (1, 0, 0)T .
Question Find three linearly independent solutions of the given third-order differential equation and write a general solution as an arbitrary linear combination of them. y-y"-21y' +5y 0 -0 A general solution is y(t)
Using the method of Frobenius obtain two linearly independent solutions to the differential equation (two power series solutions first four terms) 2x2y'' + (x-x2)y' - y = 0
If the functions y = x and y = xe" are linearly independent solutions of the non-homogeneous second-order linear differential equation with variable coefficients z_ yll – x(x + 2)y + (x+2)y=r, its general solution is given by Oy=C1 + C2xe" + x2 O y=C1x + C2xe - 22 None of them O y=C12 + C2z²er - 23 Oy=C12? + Cymet – x3
Two linearly independent solutions of the differential equation y" - 5y' + 6y = 0 are Select the correct answer. a. Y1 = 62, y2 = 232 b. Y1 = 0 -6x, y2 = e** c. Y1 = e-Gx, y2 = et d. Y1 = 0-2, y2 = 2-3x e. Yi = e6x, y2 = e-*
The molar volume in cm^3/mol of a binary liquid mixture at T and P is given by:V~ = 120 x1 + 70 x2 + (15 x1 + 8 x2) x1 x2a.) Find expressions for the partial molar volumes of species 1 and 2 at T and P.b.) Show that when these expressions are combined in accord with Eqn 11.11 the given equation for V~ is recovered.c.) Show that these expressions satisfy Eqn 11.14, the Gibbs-Duhem equation.d.) Show that at constant...
Three linearly independent solutions of the differential equation y'"' - y" - 6y' = 0 are Select the correct answer. a. V1 =e-6s, y2 =xe-1, V3 =1 b. Y1 = 224, y2 = 2-3x, y3 = 1 c. Y1 = 2-6x, y2 = e", y3 = 1 d. Y1 = e3x, y2 = 2-2*, y3 = 1 e. Vi=e , y2=xe-1, V3=1