31.10 problem 909

Internal problem ID [4145]
Internal file name [OUTPUT/3638_Sunday_June_05_2022_09_53_06_AM_40300687/index.tex]

Book: Ordinary differential equations and their solutions. By George Moseley Murphy. 1960
Section: Various 31
Problem number: 909.
ODE order: 1.
ODE degree: 2.

The type(s) of ODE detected by this program : "exact", "linear", "separable", "homogeneousTypeD2", "first_order_ode_lie_symmetry_lookup"

Maple gives the following as the ode type

[_separable]

\[ \boxed {x^{2} {y^{\prime }}^{2}-5 x y^{\prime } y+6 y^{2}=0} \] The ode \begin {align*} x^{2} {y^{\prime }}^{2}-5 x y^{\prime } y+6 y^{2} = 0 \end {align*}

is factored to \begin {align*} \left (-x y^{\prime }+3 y\right ) \left (-x y^{\prime }+2 y\right ) = 0 \end {align*}

Which gives the following equations \begin {align*} -x y^{\prime }+3 y = 0\tag {1} \\ -x y^{\prime }+2 y = 0\tag {2} \\ \end {align*}

Each of the above equations is now solved.

Solving ODE (1) In canonical form the ODE is \begin {align*} y' &= F(x,y)\\ &= f( x) g(y)\\ &= \frac {3 y}{x} \end {align*}

Where \(f(x)=\frac {3}{x}\) and \(g(y)=y\). Integrating both sides gives \begin {align*} \frac {1}{y} \,dy &= \frac {3}{x} \,d x\\ \int { \frac {1}{y} \,dy} &= \int {\frac {3}{x} \,d x}\\ \ln \left (y \right )&=3 \ln \left (x \right )+c_{1}\\ y&={\mathrm e}^{3 \ln \left (x \right )+c_{1}}\\ &=c_{1} x^{3} \end {align*}

Solving ODE (2) In canonical form the ODE is \begin {align*} y' &= F(x,y)\\ &= f( x) g(y)\\ &= \frac {2 y}{x} \end {align*}

Where \(f(x)=\frac {2}{x}\) and \(g(y)=y\). Integrating both sides gives \begin {align*} \frac {1}{y} \,dy &= \frac {2}{x} \,d x\\ \int { \frac {1}{y} \,dy} &= \int {\frac {2}{x} \,d x}\\ \ln \left (y \right )&=2 \ln \left (x \right )+c_{2}\\ y&={\mathrm e}^{2 \ln \left (x \right )+c_{2}}\\ &=c_{2} x^{2} \end {align*}

31.10.1 Maple step by step solution

\[ \begin {array}{lll} & {} & \textrm {Let's solve}\hspace {3pt} \\ {} & {} & x^{2} {y^{\prime }}^{2}-5 x y^{\prime } y+6 y^{2}=0 \\ \bullet & {} & \textrm {Highest derivative means the order of the ODE is}\hspace {3pt} 1 \\ {} & {} & y^{\prime } \\ \bullet & {} & \textrm {Solve for the highest derivative}\hspace {3pt} \\ {} & {} & \left [y^{\prime }=\frac {2 y}{x}, y^{\prime }=\frac {3 y}{x}\right ] \\ \square & {} & \textrm {Solve the equation}\hspace {3pt} y^{\prime }=\frac {2 y}{x} \\ {} & \circ & \textrm {Separate variables}\hspace {3pt} \\ {} & {} & \frac {y^{\prime }}{y}=\frac {2}{x} \\ {} & \circ & \textrm {Integrate both sides with respect to}\hspace {3pt} x \\ {} & {} & \int \frac {y^{\prime }}{y}d x =\int \frac {2}{x}d x +c_{1} \\ {} & \circ & \textrm {Evaluate integral}\hspace {3pt} \\ {} & {} & \ln \left (y\right )=2 \ln \left (x \right )+c_{1} \\ {} & \circ & \textrm {Solve for}\hspace {3pt} y \\ {} & {} & y={\mathrm e}^{c_{1}} x^{2} \\ \square & {} & \textrm {Solve the equation}\hspace {3pt} y^{\prime }=\frac {3 y}{x} \\ {} & \circ & \textrm {Separate variables}\hspace {3pt} \\ {} & {} & \frac {y^{\prime }}{y}=\frac {3}{x} \\ {} & \circ & \textrm {Integrate both sides with respect to}\hspace {3pt} x \\ {} & {} & \int \frac {y^{\prime }}{y}d x =\int \frac {3}{x}d x +c_{1} \\ {} & \circ & \textrm {Evaluate integral}\hspace {3pt} \\ {} & {} & \ln \left (y\right )=3 \ln \left (x \right )+c_{1} \\ {} & \circ & \textrm {Solve for}\hspace {3pt} y \\ {} & {} & y={\mathrm e}^{c_{1}} x^{3} \\ \bullet & {} & \textrm {Set of solutions}\hspace {3pt} \\ {} & {} & \left \{y={\mathrm e}^{c_{1}} x^{2}, y={\mathrm e}^{c_{1}} x^{3}\right \} \end {array} \]

`Methods for first order ODEs: 
--- Trying classification methods --- 
trying a quadrature 
trying 1st order linear 
<- 1st order linear successful 
Methods for first order ODEs: 
--- Trying classification methods --- 
trying a quadrature 
trying 1st order linear 
<- 1st order linear successful`
 

✓ Solution by Maple

Time used: 0.0 (sec). Leaf size: 17

dsolve(x^2*diff(y(x),x)^2-5*x*y(x)*diff(y(x),x)+6*y(x)^2 = 0,y(x), singsol=all)
 

\begin{align*} y \left (x \right ) &= c_{1} x^{2} \\ y \left (x \right ) &= c_{1} x^{3} \\ \end{align*}

✓ Solution by Mathematica

Time used: 0.043 (sec). Leaf size: 26

DSolve[x^2 (y'[x])^2-5 x y[x] y'[x]+6 y[x]^2==0,y[x],x,IncludeSingularSolutions -> True]
 

\begin{align*} y(x)\to c_1 x^2 \\ y(x)\to c_1 x^3 \\ y(x)\to 0 \\ \end{align*}