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70.15.24 problem 25

Internal problem ID [18952]
Book : Differential equations. An introduction to modern methods and applications. James Brannan, William E. Boyce. Third edition. Wiley 2015
Section : Chapter 4. Second order linear equations. Section 4.5 (Nonhomogeneous Equations, Method of Undetermined Coefficients). Problems at page 260
Problem number : 25
Date solved : Thursday, October 02, 2025 at 03:34:33 PM
CAS classification : [[_2nd_order, _linear, _nonhomogeneous]]

\begin{align*} y^{\prime \prime }-5 y^{\prime }+6 y&={\mathrm e}^{t} \cos \left (2 t \right )+{\mathrm e}^{2 t} \left (3 t +4\right ) \sin \left (t \right ) \end{align*}
Maple. Time used: 0.010 (sec). Leaf size: 55
ode:=diff(diff(y(t),t),t)-5*diff(y(t),t)+6*y(t) = exp(t)*cos(2*t)+exp(2*t)*(3*t+4)*sin(t); 
dsolve(ode,y(t), singsol=all);
\[ y = -\frac {{\mathrm e}^{t} \left (6 \cos \left (t \right ) \sin \left (t \right )+2 \cos \left (t \right )^{2}-1-20 c_1 \,{\mathrm e}^{2 t}+10 \left (-2 c_2 +3 \left (\sin \left (t \right )-\cos \left (t \right )\right ) t +10 \sin \left (t \right )-\cos \left (t \right )\right ) {\mathrm e}^{t}\right )}{20} \]
Mathematica. Time used: 0.286 (sec). Leaf size: 90
ode=D[y[t],{t,2}]-5*D[y[t],t]+6*y[t]==Exp[t]*Cos[2*t]+Exp[2*t]*(3*t+4)*Sin[t]; 
ic={}; 
DSolve[{ode,ic},y[t],t,IncludeSingularSolutions->True]
\begin{align*} y(t)&\to e^{2 t} \left (\int _1^t\left (-e^{-K[1]} \cos (2 K[1])-(3 K[1]+4) \sin (K[1])\right )dK[1]+e^t \int _1^te^{-2 K[2]} \left (\cos (2 K[2])+e^{K[2]} (3 K[2]+4) \sin (K[2])\right )dK[2]+c_2 e^t+c_1\right ) \end{align*}
Sympy. Time used: 0.379 (sec). Leaf size: 60
from sympy import * 
t = symbols("t") 
y = Function("y") 
ode = Eq((-3*t - 4)*exp(2*t)*sin(t) + 6*y(t) - exp(t)*cos(2*t) - 5*Derivative(y(t), t) + Derivative(y(t), (t, 2)),0) 
ics = {} 
dsolve(ode,func=y(t),ics=ics)
\[ y{\left (t \right )} = \left (C_{2} e^{2 t} + \left (C_{1} - \frac {3 t \sin {\left (t \right )}}{2} + \frac {3 t \cos {\left (t \right )}}{2} - 5 \sin {\left (t \right )} + \frac {\cos {\left (t \right )}}{2}\right ) e^{t} - \frac {3 \sin {\left (2 t \right )}}{20} - \frac {\cos {\left (2 t \right )}}{20}\right ) e^{t} \]

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