given that y1=xcos(lnx)and y2=xsin(lnx)form a fundamental set of solutions to x^2y''-xy'+2y=0,find general solution to x^2y''-xy'+2y=xlnx

Verify that the indicated function is a solution of the given differentialequation.x2y′′−xy′+ 2y= 0;y=xcos (lnx), x...

Verify that the indicated function is a solution of the given differentialequation.x2y′′−xy′+ 2y= 0;y=xcos (lnx), x >0

Given that y1 = t, y2 = t 2 are solutions to the homogeneous version of...

Given that y1 = t, y2 = t 2 are solutions to the homogeneous version of the nonhomogeneous DE below, verify that they form a fundamental set of solutions. Then, use variation of parameters to find the general solution y(t). (t^2)y'' - 2ty' + 2y = 4t^2 t > 0

it can be shown that y1=x^(−2), y2=x^(−5) and  y3=2 are solutions to the differential equation x^2D^3y+10xD^2y+18Dy=0 on...

it can be shown that y1=x^(−2), y2=x^(−5) and  y3=2 are solutions to the differential equation x^2D^3y+10xD^2y+18Dy=0 on (0,∞) What does the Wronskian of y1,y2,y3 equal? W(y1,y2,y3) = Is {y1,y2,y3} a fundamental set for x^2D^3y+10xD^2y+18Dy=0 on (0,∞) ?

show that y1= e^x and y2=1+x form a basis for the general solution of xy''-(1+x)y'+y=0 by...

show that y1= e^x and y2=1+x form a basis for the general solution of xy''-(1+x)y'+y=0 by verifying that they both work, and are linearly independent using the wronskian.

The function y1(t) = t is a solution to the equation. t2 y'' + 2ty' -...

The function y1(t) = t is a solution to the equation. t2 y'' + 2ty' - 2y = 0, t > 0 Find another particular solution y2 so that y1 and y2 form a fundamental set of solutions. This means that, after finding a solution y2, you also need to verify that {y1, y2} is really a fundamental set of solutions.

Show that the given functions y1 and y2 are solutions to the DE. Then show that...

Show that the given functions y1 and y2 are solutions to the DE. Then show that y1 and y2 are linearly independent. write the general solution. Impose the given ICs to find the particular solution to the IVP. y'' + 25y = 0; y1 = cos 5x; y2 = sin 5x; y(0) = -2; y'(0) = 3.

Find the general solution near x = 0 of y'' - xy' + 2y = 0....

Find the general solution near x = 0 of y'' - xy' + 2y = 0. (Power series, recursive formula problem)

Find the general solution to xy''' - 2y'' = 0

Find the general solution to xy''' - 2y'' = 0

Verify that the given functions form a fundamental set of solutions of the differential equation on...

Verify that the given functions form a fundamental set of solutions of the differential equation on the indicated interval. Form the general solution. 1.) y'' − 4y = 0; cosh 2x, sinh 2x, (−∞,∞) 2.) y^(4) + y'' = 0; 1, x, cos x, sin x (−∞,∞)

Two solutions to the differential equation y00 + 2y0 + y = 0 are y1(t) =...

Two solutions to the differential equation y00 + 2y0 + y = 0 are y1(t) = e−t and y2(t) = te−t. Verify that y1(t) is a solution and show that y1,y2 form a fundamental set of solutions by computing the Wronskian