1252) y=(C1)exp(Ax)+(C2)exp(Bx)+F+Gx is the general solution of the second order linear differential equation: (y'') + (...

1252) y=(C1)exp(Ax)+(C2)exp(Bx)+F+Gx is the general solution of
        the second order linear differential equation:
        (y'') + ( -9y') + ( 20y) = ( -9) + ( -8)x.  Find A,B,F,G, where
        A>B.  This exercise may show "+ (-#)" which should be enterered into
        the calculator as "-#", and not "+-#".  ans:4

1252) y=(C1)exp(Ax)+(C2)exp(Bx)+F+Gx is the general solution of the second order linear differential equation: (y'') + (...

1252) y=(C1)exp(Ax)+(C2)exp(Bx)+F+Gx is the general solution of the second order linear differential equation: (y'') + ( -4y') + ( 3y) = ( 2) + ( -7)x. Find A,B,F,G, where A>B.

1249) The solution of some second order linear DEQ is exp(-1x)[5sin(3x)+ 2cos(3x)] which can also be...

1249) The solution of some second order linear DEQ is exp(-1x)[5sin(3x)+ 2cos(3x)] which can also be expressed as A*exp(-D*x)*sin(F*x+G). Determine A,D,F, and G (degrees). ans:4 1252) y=(C1)exp(Ax)+(C2)exp(Bx)+F+Gx is the general solution of the second order linear differential equation: (y'') + ( -8y') + ( -9y) = ( -8) + ( 3)x. Find A,B,F,G, where A>B. This exercise may show "+ (-#)" which should be enterered into the calculator as "-#", and not "+-#". ans:4

1250) y=Aexp(Bx)+Fexp(Gx) is the particular solution of the second order linear differential equation: (y'') + (...

1250) y=Aexp(Bx)+Fexp(Gx) is the particular solution of the second order linear differential equation: (y'') + ( 2y') + (-24y) = 0, subject to the boundary conditions: y=4, and y'=1 when x=0. Find A,B,F, and G, where B>G.

Solve the following differential equation by variation of parameters. Fully evaluate all integrals. y′′+9y=sec(3x). a. Find...

Solve the following differential equation by variation of parameters. Fully evaluate all integrals. y′′+9y=sec(3x). a. Find the most general solution to the associated homogeneous differential equation. Use c1 and c2 in your answer to denote arbitrary constants, and enter them as c1 and c2. b. Find a particular solution to the nonhomogeneous differential equation y′′+9y=sec(3x). c. Find the most general solution to the original nonhomogeneous differential equation. Use c1 and c2 in your answer to denote arbitrary constants.

Find the general solution to the first-order linear differential equation. y' = -y(6-y)

Find the general solution to the first-order linear differential equation. y' = -y(6-y)

Second-Order Linear Non-homogeneous with Constant Coefficients: Find the general solution to the following differential equation, using...

Second-Order Linear Non-homogeneous with Constant Coefficients: Find the general solution to the following differential equation, using the Method of Undetermined Coefficients. y''− 2y' + y = 4x + xe^x

Question 11: What is the general solution of the following homogeneous second-order differential equation? d^2y/dx^2 +...

Question 11: What is the general solution of the following homogeneous second-order differential equation? d^2y/dx^2 + 10 dy/dx + 25.y =0 (a) y = e 12.5.x (Ax + B) (b) y = e -5.x (Ax + B) (c) y = e -10.x (Ax + B) (d) y = e +5.x (Ax + B) Question 12: What is the general solution of the following homogeneous second-order differential equation? Non-integers are expressed to one decimal place. d^2y/dx^2 − 38.y =0 (a) y...

1249) The solution of some second order linear DEQ is exp(-9x)[9sin(1x)+ 3cos(1x)] which can also be...

1249) The solution of some second order linear DEQ is exp(-9x)[9sin(1x)+ 3cos(1x)] which can also be expressed as A*exp(-D*x)*sin(F*x+G). Determine A,D,F, and G (degrees). ans:4

Show that f(x) = C1e4x + C2e-2x is a solution to the differential equation: y’’ –...

Show that f(x) = C1e4x + C2e-2x is a solution to the differential equation: y’’ – 2y’ – 8y = 0, for all constants C1 and C2. Then find values for C1 and C2 such that y(0) = 1 and y’(0) = 0.

y = c1 cos(5x) + c2 sin(5x) is a two-parameter family of solutions of the second-order...

y = c1 cos(5x) + c2 sin(5x) is a two-parameter family of solutions of the second-order DE y'' + 25y = 0. If possible, find a solution of the differential equation that satisfies the given side conditions. The conditions specified at two different points are called boundary conditions. (If not possible, enter IMPOSSIBLE.) y(0) = 1, y'(π) = 7 y =