problem 9

76.24.8 problem 9

Internal problem ID [17736]
Book : Diﬀerential equations. An introduction to modern methods and applications. James Brannan, William E. Boyce. Third edition. Wiley 2015
Section : Chapter 6. Systems of First Order Linear Equations. Section 6.2 (Basic Theory of First Order Linear Systems). Problems at page 398
Problem number : 9
Date solved : Monday, March 31, 2025 at 04:26:15 PM
CAS classiﬁcation : system_of_ODEs

\begin{align*} \frac {d}{d t}x_{1} \left (t \right )&=3 x_{1} \left (t \right )+2 x_{2} \left (t \right )+4 x_{3} \left (t \right )\\ \frac {d}{d t}x_{2} \left (t \right )&=2 x_{1} \left (t \right )+2 x_{3} \left (t \right )\\ \frac {d}{d t}x_{3} \left (t \right )&=4 x_{1} \left (t \right )+2 x_{2} \left (t \right )+3 x_{3} \left (t \right ) \end{align*}

✓ Maple. Time used: 0.179 (sec). Leaf size: 66

ode:=[diff(x__1(t),t) = 3*x__1(t)+2*x__2(t)+4*x__3(t), diff(x__2(t),t) = 2*x__1(t)+2*x__3(t), diff(x__3(t),t) = 4*x__1(t)+2*x__2(t)+3*x__3(t)]; 
dsolve(ode);

\begin{align*} x_{1} \left (t \right ) &= 2 c_2 \,{\mathrm e}^{-t}+2 c_3 \,{\mathrm e}^{8 t}+{\mathrm e}^{-t} c_1 \\ x_{2} \left (t \right ) &= c_2 \,{\mathrm e}^{-t}+c_3 \,{\mathrm e}^{8 t} \\ x_{3} \left (t \right ) &= -\frac {5 c_2 \,{\mathrm e}^{-t}}{2}+2 c_3 \,{\mathrm e}^{8 t}-{\mathrm e}^{-t} c_1 \\ \end{align*}

✓ Mathematica. Time used: 0.005 (sec). Leaf size: 124

ode={D[x1[t],t]==x2[t]+x3[t],D[x2[t],t]==x1[t]+x3[t],D[x3[t],t]==x1[t]+x2[t]}; 
ic={}; 
DSolve[{ode,ic},{x1[t],x2[t],x3[t]},t,IncludeSingularSolutions->True]

\begin{align*} \text {x1}(t)\to \frac {1}{3} e^{-t} \left (c_1 \left (e^{3 t}+2\right )+(c_2+c_3) \left (e^{3 t}-1\right )\right ) \\ \text {x2}(t)\to \frac {1}{3} e^{-t} \left (c_1 \left (e^{3 t}-1\right )+c_2 \left (e^{3 t}+2\right )+c_3 \left (e^{3 t}-1\right )\right ) \\ \text {x3}(t)\to \frac {1}{3} e^{-t} \left (c_1 \left (e^{3 t}-1\right )+c_2 \left (e^{3 t}-1\right )+c_3 \left (e^{3 t}+2\right )\right ) \\ \end{align*}

✓ Sympy. Time used: 0.130 (sec). Leaf size: 46

from sympy import * 
t = symbols("t") 
x__1 = Function("x__1") 
x__2 = Function("x__2") 
x__3 = Function("x__3") 
ode=[Eq(-3*x__1(t) - 2*x__2(t) - 4*x__3(t) + Derivative(x__1(t), t),0),Eq(-2*x__1(t) - 2*x__3(t) + Derivative(x__2(t), t),0),Eq(-4*x__1(t) - 2*x__2(t) - 3*x__3(t) + Derivative(x__3(t), t),0)] 
ics = {} 
dsolve(ode,func=[x__1(t),x__2(t),x__3(t)],ics=ics)

\[ \left [ x^{1}{\left (t \right )} = C_{3} e^{8 t} - \left (C_{1} + \frac {C_{2}}{2}\right ) e^{- t}, \ x^{2}{\left (t \right )} = C_{2} e^{- t} + \frac {C_{3} e^{8 t}}{2}, \ x^{3}{\left (t \right )} = C_{1} e^{- t} + C_{3} e^{8 t}\right ] \]

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