problem Exercise 35.2, page 504

10.2 problem Exercise 35.2, page 504

Internal problem ID [4652]

Book: Ordinary Diﬀerential Equations, By Tenenbaum and Pollard. Dover, NY 1963
Section: Chapter 8. Special second order equations. Lesson 35. Independent variable x absent
Problem number: Exercise 35.2, page 504.
ODE order: 2.
ODE degree: 1.

CAS Maple gives this as type [[_2nd_order, _missing_x], [_2nd_order, _reducible, _mu_x_y1]]

\[ \boxed {y^{3} y^{\prime \prime }=k} \]

✓ Solution by Maple

Time used: 0.016 (sec). Leaf size: 46

dsolve(y(x)^3*diff(y(x),x$2)=k,y(x), singsol=all)

\begin{align*} y \left (x \right ) &= \frac {\sqrt {\left (\left (c_{2} +x \right )^{2} c_{1}^{2}+k \right ) c_{1}}}{c_{1}} \\ y \left (x \right ) &= -\frac {\sqrt {\left (\left (c_{2} +x \right )^{2} c_{1}^{2}+k \right ) c_{1}}}{c_{1}} \\ \end{align*}

✓ Solution by Mathematica

Time used: 2.878 (sec). Leaf size: 63

DSolve[y[x]^3*y''[x]==k,y[x],x,IncludeSingularSolutions -> True]

\begin{align*} y(x)\to -\frac {\sqrt {k+c_1{}^2 (x+c_2){}^2}}{\sqrt {c_1}} \\ y(x)\to \frac {\sqrt {k+c_1{}^2 (x+c_2){}^2}}{\sqrt {c_1}} \\ y(x)\to \text {Indeterminate} \\ \end{align*}

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