5.33 problem 37 (ii)

Internal problem ID [12982]
Internal file name [OUTPUT/11635_Tuesday_November_07_2023_11_53_46_PM_83788516/index.tex]

Book: DIFFERENTIAL EQUATIONS by Paul Blanchard, Robert L. Devaney, Glen R. Hall. 4th edition. Brooks/Cole. Boston, USA. 2012
Section: Chapter 1. First-Order Differential Equations. Exercises section 1.6 page 89
Problem number: 37 (ii).
ODE order: 1.
ODE degree: 1.

The type(s) of ODE detected by this program : "quadrature"

Maple gives the following as the ode type

[_quadrature]

\[ \boxed {y^{\prime }-y+y^{2}=0} \]

5.33.1 Solving as quadrature ode

Integrating both sides gives \begin {align*} \int \frac {1}{-y^{2}+y}d y &= t +c_{1}\\ \ln \left (y \right )-\ln \left (y -1\right )&=t +c_{1} \end {align*}

Solving for \(y\) gives these solutions \begin {align*} y_1&=\frac {{\mathrm e}^{t +c_{1}}}{-1+{\mathrm e}^{t +c_{1}}}\\ &=\frac {{\mathrm e}^{t} c_{1}}{-1+c_{1} {\mathrm e}^{t}} \end {align*}

5.33.2 Maple step by step solution

\[ \begin {array}{lll} & {} & \textrm {Let's solve}\hspace {3pt} \\ {} & {} & y^{\prime }-y+y^{2}=0 \\ \bullet & {} & \textrm {Highest derivative means the order of the ODE is}\hspace {3pt} 1 \\ {} & {} & y^{\prime } \\ \bullet & {} & \textrm {Solve for the highest derivative}\hspace {3pt} \\ {} & {} & y^{\prime }=y-y^{2} \\ \bullet & {} & \textrm {Separate variables}\hspace {3pt} \\ {} & {} & \frac {y^{\prime }}{y-y^{2}}=1 \\ \bullet & {} & \textrm {Integrate both sides with respect to}\hspace {3pt} t \\ {} & {} & \int \frac {y^{\prime }}{y-y^{2}}d t =\int 1d t +c_{1} \\ \bullet & {} & \textrm {Evaluate integral}\hspace {3pt} \\ {} & {} & -\ln \left (y-1\right )+\ln \left (y\right )=t +c_{1} \\ \bullet & {} & \textrm {Solve for}\hspace {3pt} y \\ {} & {} & y=\frac {{\mathrm e}^{t +c_{1}}}{-1+{\mathrm e}^{t +c_{1}}} \end {array} \]

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

✓ Solution by Maple

Time used: 0.016 (sec). Leaf size: 14

dsolve(diff(y(t),t)=y(t)-y(t)^2,y(t), singsol=all)
 

\[ y \left (t \right ) = \frac {1}{1+{\mathrm e}^{-t} c_{1}} \]

✓ Solution by Mathematica

Time used: 0.42 (sec). Leaf size: 29

DSolve[y'[t]==y[t]-y[t]^2,y[t],t,IncludeSingularSolutions -> True]
 

\begin{align*} y(t)\to \frac {e^t}{e^t+e^{c_1}} \\ y(t)\to 0 \\ y(t)\to 1 \\ \end{align*}