Question

In: Advanced Math

Solve the ODE y"+3y'+2y=(cosx)+(x^2)+(e^-1)

Solve the ODE
y"+3y'+2y=(cosx)+(x^2)+(e^-1)

Solutions

Expert Solution

Colby Messinger answered 3 years ago
Next > < Previous

Related Solutions

y''-3y'+2y=1+cost+e^-t
y''-3y'+2y=1+cost+e^-t
Solve ODE (3x - 2y + 1)dx + (-2x + y + 2)dy = 0 with...
Solve ODE (3x - 2y + 1)dx + (-2x + y + 2)dy = 0 with the method of x =u + h and y = v + k
. Find the general solution to the ODE: x^2 y" + 5xy' + 3y = x^2
. Find the general solution to the ODE: x^2 y" + 5xy' + 3y = x^2
non-homogeneous ODE. solve this equation analytically. -2y''+5y'+3y=exp(-0.2x) b.c y'(0)=1, y'(10)=-y(10)
non-homogeneous ODE. solve this equation analytically. -2y''+5y'+3y=exp(-0.2x) b.c y'(0)=1, y'(10)=-y(10)
y"-2y'+2y = x^2+e^2x
y"-2y'+2y = x^2+e^2x
Find the general solution to the ODE y'' − y'/x − 4x^2y = x^2 sinh(x^2)
Find the general solution to the ODE y'' − y'/x − 4x^2y = x^2 sinh(x^2)
Find the general solution of the following ODE: y''x^2 − 3xy' + 3y = 2/x ,...
Find the general solution of the following ODE: y''x^2 − 3xy' + 3y = 2/x , for x > 0.
Solve the differential equation by variation of parameters. y'' + 3y' + 2y = cos(ex) y(x)...
Solve the differential equation by variation of parameters. y'' + 3y' + 2y = cos(ex) y(x) = _____.
Solve x′=x−8y, y′=x−3y, x(0)=2, y(0)=1
Solve x′=x−8y, y′=x−3y, x(0)=2, y(0)=1
y''+ 3y'+2y=e^t y(0)=1 y'(0)=-6 Solve using Laplace transforms. Then, solve using undetermined coefficients. Then, solve using...
y''+ 3y'+2y=e^t y(0)=1 y'(0)=-6 Solve using Laplace transforms. Then, solve using undetermined coefficients. Then, solve using variation of parameters.
ADVERTISEMENT
Subjects
ADVERTISEMENT
Latest Questions
ADVERTISEMENT