You found a particular solution to y''+2y'+5y=e^(2t) by guessing a function based on the form of...

Please use the method of undetermined coefficients to find the form of the particular solution (WITHOUT...

Please use the method of undetermined coefficients to find the form of the particular solution (WITHOUT SOLVING FOR CONSTANTS) of the following ODEs y''+5y'+6y=−t+e−3t+te−2t+e−3tcos(t) y''+3y'+2y = et(t2+ 1)sin(2t)+3e−t cos(t)+4et

Consider the differential equation y”+5y’+6y=f(t). Write the form of the particular solution if f(t) is the...

Consider the differential equation y”+5y’+6y=f(t). Write the form of the particular solution if f(t) is the following. Do not solve. (a) f(t)= 5t*e^(-2t) (b) f(t)= t^2*sin(2t) (c) f(t)= t + 1 (d) f(t)= 2t^2*e^(-3t) (e) f(t)= 4t^2+3t

Consider the differential equation y”+5y’+6y=f(t). Write the form of the particular solution if f(t) is the...

Consider the differential equation y”+5y’+6y=f(t). Write the form of the particular solution if f(t) is the following. Do not solve. (a) f(t)= 5t*e^(-2t) (b) f(t)= t^2*sin(2t) (c) f(t)= t + 1 (d) f(t)= 2t^2*e^(-3t) (e) f(t)= 4t^2+3t

Find the solution of the initial value problem y′′+2y′+5y=16e^−tcos(2t), y(0)=6, y′(0)=0

Find the solution of the initial value problem y′′+2y′+5y=16e^−tcos(2t), y(0)=6, y′(0)=0

Use undetermined coefficients to find the particular solution to 1) y''−2y'+3y= 5t^2+2t+2 yp(t)=? 2) y''+y'−20y= −2550sin(3t)...

Use undetermined coefficients to find the particular solution to 1) y''−2y'+3y= 5t^2+2t+2 yp(t)=? 2) y''+y'−20y= −2550sin(3t) yp(t)=?

Find the general solution of the following nonhomogeneous equations: • y '' − 2y ' +...

Find the general solution of the following nonhomogeneous equations: • y '' − 2y ' + 5y = 25x ^2 + 12 • y ''− 3y ' + 2y = 10 sen 2x • y '' − 2y ' + y = e^x + e^−2x • y '' − y = x sen x • y '' − 6y ' + 9y = 5e^x sen x • y '' + y ' + y + 1 = sen x +...

1.Show that cos 2t, sin 2t, and e^5t are linearly independent and form a fundamental set...

1.Show that cos 2t, sin 2t, and e^5t are linearly independent and form a fundamental set of solutions for the equation: y ′′′ − 5y ′′ + 4y ′ − 20y = 0 2.Find the general solution to the equation: y ′′′ − y ′′ − 4y ′ + 4y = 0

3. For each of the following equations find a particular solution yp(t). (a) y"+4y= e^(5t) (b)...

3. For each of the following equations find a particular solution yp(t). (a) y"+4y= e^(5t) (b) 4y"+4y'+y = 3t(e^t) (c) y"+4y'+2y=t^2 (d) y"+9y = cos(3t) +4sin(3t)

Using variation of parameters, find a particular solution of the given differential equations: a.) 2y" +...

Using variation of parameters, find a particular solution of the given differential equations: a.) 2y" + 3y' - 2y = 25e-2t (answer should be: y(t) = 2e-2t (2e5/2 t - 5t - 2) b.) y" - 2y' + 2y = 6 (answer should be: y = 3 + (-3cos(t) + 3sin(t))et )

(1 point) Match the following nonhomogeneous linear equations with the form of the particular solution yp...

(1 point) Match the following nonhomogeneous linear equations with the form of the particular solution yp for the method of undetermined coefficients.   ?    A    B    C    D      1. y′′+y=t(1+sint)   ?    A    B    C    D      2. y′′+4y=t2sin(2t)+(5t−7)cos(2t)   ?    A    B    C    D      3. y′′+2y′+2y=3e−t+2e−tcost+4e−tt2sint   ?    A    B    C    D      4. y′′−4y′+4y=2t2+4te2t+tsin(2t) A. yp=t(A0t2+A1t+A2)sin(2t)+t(B0t2+B1t+B2)cos(2t) B. yp=A0t2+A1t+A2+t2(B0t+B1)e2t+(C0t+C1)sin(2t)+(D0t+D1)cos(2t) C. yp=Ae−t+t(B0t2+B1t+B2)e−tcost+t(C0t2+C1t+C2)e−tsint D. yp=A0t+A1+t(B0t+B1)sint+t(C0t+C1)cost