6.10 problem 27

Internal problem ID [10485]

Book: Handbook of exact solutions for ordinary differential equations. By Polyanin and Zaitsev. Second edition
Section: Chapter 1, section 1.2. Riccati Equation. subsection 1.2.4-2. Equations with hyperbolic tangent and cotangent.
Problem number: 27.
ODE order: 1.
ODE degree: 1.

CAS Maple gives this as type [_Riccati]

\[ \boxed {y^{\prime }-y^{2}=-2 b a +\lambda a +b \lambda -a \left (a +\lambda \right ) \tanh \left (\lambda x \right )^{2}-b \left (b +\lambda \right ) \coth \left (\lambda x \right )^{2}} \]

✓ Solution by Maple

Time used: 0.015 (sec). Leaf size: 1111

dsolve(diff(y(x),x)=y(x)^2+a*lambda+b*lambda-2*a*b-a*(a+lambda)*tanh(lambda*x)^2-b*(b+lambda)*coth(lambda*x)^2,y(x), singsol=all)
 

\[ \text {Expression too large to display} \]

✓ Solution by Mathematica

Time used: 40.238 (sec). Leaf size: 493

DSolve[y'[x]==y[x]^2+a*\[Lambda]+b*\[Lambda]-2*a*b-a*(a+\[Lambda])*Tanh[\[Lambda]*x]^2-b*(b+\[Lambda])*Coth[\[Lambda]*x]^2,y[x],x,IncludeSingularSolutions -> True]
 

\begin{align*} y(x)\to -\frac {(a+b) \left (e^{2 \lambda x}\right )^{\frac {a+b}{\lambda }} \left (\frac {2 \lambda \left (a \left (e^{2 \lambda x}-1\right )^2+b \left (e^{2 \lambda x}+1\right )^2\right ) \left (e^{2 \lambda x}\right )^{-\frac {a+b}{\lambda }} \operatorname {AppellF1}\left (-\frac {a+b}{\lambda },-\frac {2 b}{\lambda },-\frac {2 a}{\lambda },-\frac {a+b-\lambda }{\lambda },e^{2 x \lambda },-e^{2 x \lambda }\right )}{(a+b) \left (e^{2 \lambda x}-1\right ) \left (e^{2 \lambda x}+1\right )}+4 \lambda \left (e^{2 \lambda x}\right )^{-\frac {a+b}{\lambda }} \operatorname {AppellF1}\left (-\frac {a+b}{\lambda },-\frac {2 b}{\lambda },-\frac {2 a}{\lambda },-\frac {a+b-\lambda }{\lambda },e^{2 x \lambda },-e^{2 x \lambda }\right )+\frac {8 \lambda \left (e^{2 \lambda x}\right )^{-\frac {a+b-\lambda }{\lambda }} \left (a \operatorname {AppellF1}\left (1-\frac {a+b}{\lambda },-\frac {2 b}{\lambda },1-\frac {2 a}{\lambda },-\frac {a+b-2 \lambda }{\lambda },e^{2 x \lambda },-e^{2 x \lambda }\right )-b \operatorname {AppellF1}\left (1-\frac {a+b}{\lambda },1-\frac {2 b}{\lambda },-\frac {2 a}{\lambda },-\frac {a+b-2 \lambda }{\lambda },e^{2 x \lambda },-e^{2 x \lambda }\right )\right )}{-a-b+\lambda }-\frac {2 c_1 \left (a \left (e^{2 \lambda x}-1\right )^2+b \left (e^{2 \lambda x}+1\right )^2\right )}{e^{4 \lambda x}-1}\right )}{2 \left (-\lambda \operatorname {AppellF1}\left (-\frac {a+b}{\lambda },-\frac {2 b}{\lambda },-\frac {2 a}{\lambda },-\frac {a+b-\lambda }{\lambda },e^{2 x \lambda },-e^{2 x \lambda }\right )+c_1 (a+b) \left (e^{2 \lambda x}\right )^{\frac {a+b}{\lambda }}\right )} y(x)\to \frac {a \left (e^{2 \lambda x}-1\right )^2+b \left (e^{2 \lambda x}+1\right )^2}{e^{4 \lambda x}-1} \end{align*}