Questions on (ordinary) differential equations. For questions specifically concerning partial differential equations, use the (pde) tag.

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3
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0answers
7 views

Solvable non homogeneous Sturm-Liouville with non homogeneous boundary conditions

I was just presented with this problem in my PDE methods course which involves a non homogeneous Sturm-Liouville problem, which states as follows: Find the conditions under which the following SL ...
2
votes
0answers
20 views

Finding an equilibrium solution to a first order system of equations.

Given a model: $ y''+\alpha y'+\beta y + \gamma y = -g $ I can see that it can be converted to a system of first order equations as follows: $y_{1}=y$, $y_{2}=y'$ and as such $y_{1}'=y'$ and ...
1
vote
2answers
15 views

Difference between two solution of inhomogeneous linear equation

Show that the difference between two solutions of an inhomogeneous linear equation $Lu =g$ with the same $g$ is the solution of the homogenous equation $Lu=0$ I know the definition of linearity, but ...
2
votes
2answers
15 views

Help interpreting the solution for a differential equation

The differential equation is $\frac{dx}{dt} = x + x^2$ Solving for $x$, I got $x = (ce^t)/(1- ce^t)$ where, $c = x_0/(1+x_0)$ and $x_0$ is the initial value of $x$ at $t=0$ Now, the value of ...
0
votes
2answers
20 views

Differential Equations Pressure and Density derivation

The pressure $p$, and the density, $\rho$, of the atmosphere at a height $y$ above the earth's surface are related by $dp = -g \rho\; dy$. Assuming that $p$ and $\rho$ satify the adiabatic equation of ...
1
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1answer
28 views

Show that $m_1=\frac{m_2-\tan{(a)}}{1+m_2\tan{(a)}}$

Given: $m_1=\tan{(a_1)}$ and denotes the slope of the required family at some $(x,y)$ $m_2=\tan{(a_2)}$ and denotes the slope of the given family at the same $(x,y)$ it also gives the hint that ...
-2
votes
1answer
49 views

Solving Differential Equation $\frac{dy}{dx} = 1 -\sin(x+y)/(\sin y \cos x)$ by separating variables

Initial value is $y(\frac{\pi}{4})$. I got to $\frac{\mathrm{d}y}{\mathrm{d}x} = 1 - \frac{\sin(x) \cos(y) + \sin(y) \cos(x)}{\sin(y)\cos(x)}$ by using the $\sin(x+y) = \sin(x) \cos(y) + \sin(y) ...
1
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0answers
35 views

Diagonalization: Differential Equations

The booking being used for this course is Differential Equations and Dynamical Systems by Lawrence Perko. The problem is as follows: Let the $n\times n$ matrix $A$ have real, distinct ...
1
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1answer
23 views

Uncoupled Linear System: Differential Equations

I'm trying to make sense of a problem I was given in class and I want to know if I am on the right track. The question is as follows: If $\vec{u}(t)$ and $\vec{v}(t)$ are solutions of the linear ...
0
votes
2answers
25 views

How can I find the differential equation for a (R+L)||C circuit?

I have a question about a parallel series RLC circuit; the capacitor is parallel to the {inductor + resistor}. The capacitor is charged at an initial voltage $U_{C,0}$ and the inductor has initially ...
0
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0answers
20 views

how can I prove that a derivative of an implicit function is bounded?

I have the following implicit function $V(\tau,\mu)$. The function is bounded and continuous and differentiable on $\mathbb{R}$. What other properties or assumptions should I make or what conditions ...
0
votes
1answer
12 views

fluid dynamics in polar coordinates

On page 12 of Malham's fluid dynamics notes the following flow field is considered: $\boldsymbol u= (u,v) = (kx, -ky)$. It's easy to see in these Cartesian coordinates that this is solenoidal: ...
1
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2answers
44 views

How to prove that $J_\frac{-5}{2}(x)= \frac{\sqrt2}{\sqrt{x\pi}}[\frac{3}{x}\sin x+\frac{3-x^2}{x^2}\cos x]$

How to prove that $$J_\frac{-5}{2}(x)= \sqrt{\frac{2}{\pi x}}\left(\frac{3}{x}\sin x+\frac{3-x^2}{x^2}\cos x\right)$$ I want to do this by using the definition of $J_{-n}(x)$ then putting value of ...
0
votes
0answers
11 views

If the solution of the following ODE unique with given initial value?

I am considering the following ODE: $$t\frac{d}{dt}f(t)=F(f,g)$$$$t\frac{d}{dt}g(t)=G(f,g)$$. F,G are polynomials. For given an initial value $f(0)=f_*,g(0)=g_*$ satisfying ...
0
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0answers
13 views

Autonomous differential equation with periodic vector field

This is about introductory part in Chicone's text on Differential Equations: Suppose $F: \mathbb{R} \to \mathbb{R}$ is a smooth (continuously differentiable) positive function of period $p>0$. ...
3
votes
1answer
39 views

Why is the solution of an ordinary differential equation required to be defined on an interval?

I am reading A First Course in Differential Equations with Modeling Applications (10th Edition) and here is a definition: Any function $\phi$, defined on an interval $I$ and possessing at least ...
2
votes
0answers
33 views

Stability of an equilibrium

From a Center-Manifold reduction I get the following system: $$ \begin{pmatrix}\dot x \\\dot y\end{pmatrix}=\begin{pmatrix}-y(2x^2-2xy+y^2)\\x\end{pmatrix} $$ The aim is to analyze the stability of ...
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0answers
22 views

Finding the Equations of Motion for the Leapfrog Integrator

I understand that the Leapfrog Integrator is used to find an integral for Newton's Laws of Motion and that the Equation of Motion are given by: $$\frac{dx}{dt} = v$$ and $$\frac{dv}{dt} = F(x) = ...
0
votes
1answer
23 views

System with arbitrary function of an unknown

How can I solve the following system $$ (u_x)^2 - (u_t)^2 = 1 \\ u_{xx} - u_{tt} = f(u) $$ where $f$ is an arbitrary function of $u$, $u$ and $f$ to be determined. I don't know any approach, ...
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0answers
24 views

How to solve diff. eq. involving function taking expression including itself as variable

$$ f(x)=f \left( x \pm \frac{l}{\sqrt{1+\dot{f}^2}} \right) \mp \frac{l}{\sqrt{1+\dot{f}^2}}\dot{f}^2, $$ where $l$ is a constant. How is such a beast even approached? If anyone got intuition for ...
0
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1answer
25 views

Linear Systems: Differential Equations

The book being used for the course is Differential Equations and Dynamical Systems by Lawrence Perko. The question is as follows: Find the general solution of the linear system ...
0
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0answers
37 views

Where can I find this definition of “expected value”?

I need bibliography or some text about this definition: "Define the expected value of a function by: $E_{t}(x(t))=(\frac{1}{t})\int_{0}^{t} x(s)ds$. " I think that it's statistics or functional ...
4
votes
1answer
52 views

What mathematics topics pertain more towards applied mathematics?

I'm entering my second year of undergrad (majoring in mathematics), and I've found that I am really bad at Linear Algebra, but very good at Calculus and Differential Equations. I'm hoping to venture ...
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votes
0answers
20 views

Compute the operator norm of the linear transformation defined by the following matrix. [on hold]

Compute the operator norm of the linear transformation defined by the following matrix. \begin{bmatrix} 2 & 0 \\ 0 & -3 \end{bmatrix}
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vote
1answer
23 views

Solution for ODE $\dot{x}=F(x)$ with $F:\mathbb{R}\rightarrow\mathbb{R}$ smooth, periodic & positive.

If $F:\mathbb{R}\rightarrow\mathbb{R}$ is smooth, periodic & positive and $x(t)$ is a solution for $\dot{x}=F(x)$ and $$T:=\int_{0}^{p}\frac{1}{F(y)}dy$$ then $x(t+T)-x(t)=p$ for all ...
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0answers
59 views
+100

Solving ODE rigorously

I am given the ODE $$(f''(r)+\frac{f'(r)}{r})(1+f'(r)^2)-f'(r)^2f''(r)=0$$ and want to solve it rigorously for $r>0.$ So especially, I don't want to loose any solutions. $\textbf{Derivation of ...
2
votes
1answer
22 views

How to prove that a differential equation has a solution

I want to prove that there exists $f : [0,1] \to [0,1]$ such that $$ w(y - f(y)) = \int_0^y g(x) dv(f(x)), $$ where $w : [0,1] \to [0,1]$ and $v : [0,1] \to [0,1]$ are continuous strictly ...
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4answers
56 views

Solving this 1st Order PDE [on hold]

I am trying to solve the following PDE with an initial condition: $$u_x + u_y = x + y$$ with $$u(x, 0) = 0$$ I am not sure which method to use to solve this. Thanks
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0answers
21 views

A discussion on fourier and laplace transforms and differential equations …?

i have read many of the answers and explanations about the similarities and differences between laplace and fourier transform. Laplace can be used to analyze unstable systems. Fourier is a subset of ...
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0answers
12 views

Showing a bound exists

I was able to derive the following differential equations I have to work with for a function $V$: $$ \begin{align*} dV(x_1,x_2,x_3,x_4) &= ...
1
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1answer
14 views

Various forms of the Confluent Heun Equation

The Confluent Heun equation is expressed in various forms. It's non-symmetrical canonical form is: \begin{equation} ...
1
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1answer
47 views

Solution space of the differential equation $y'' + y =0$

To find the dimension of the solution space of the equation given $y'' + y = 0$ . Take $y=e^{mx}$Then we have to solve the equation $m^{2}+1=0$ for $m$ . Which gives $m=\pm i$. ...
0
votes
1answer
62 views

How was this differentiated?

How red-circled function with 1/D is equal to green-circled? Note: D is equal to dy/dx. Update: Complete pic
2
votes
1answer
30 views

Solving this 2nd Order non-homogeneous PDE

I am trying to solve the following equation: $$3u_{xx} - 10u_{xt} - 3u_{tt} = \sin(x + t)$$ I know that the left hand side is a quadratic equation which I have to factorise. Then I let one of the ...
0
votes
1answer
19 views

Asymptotic error expansion of global error for single step methods

My question refers to the proof of the following theorem, but it may suffice to just skip the theorem and continue with the problematic taylor expansion $(\ast)$: Let $f(t,y)$ and the single step ...
1
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1answer
19 views

Where can I find the theorem that says an n order diffeq has n solutions?

I study engineering not mathematics and I feel my theoretical understanding of differential equations is SO wishy washy. I'm not interested in proving such a theorem at the moment, but I want to know ...
0
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0answers
34 views

Algebra behind Feynman-Kac theorem?

According to many sources, The Feynman-Kac theorem in Equation (1) below is the solution to Equation (3) - if X(t) follows a diffusion such as in (2). (Most Important) - Can someone show the algebra ...
0
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1answer
12 views

First order differential equation, getting from one step to another

I don't understand how to get the last equation, the first three are no problem, I just can't get the last equation from the third one.
1
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1answer
32 views

Finding general solution to Partial Differential Equations

I am asked to find the general solution $f(x, y)$ of the partial differential equation: $\frac{\partial ^2 f}{\partial x \partial y}=e ^ {x+2y}$ I know these are relatively easy to solve, I haven't ...
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vote
4answers
52 views

What is the essential difference between ordinary differential equations and partial differential equations?

Please forgive my stupidity. So many years after my undergraduate study and so many years after dealing with various concrete ODEs and PDEs, I still cannot tell the essential difference between ...
0
votes
3answers
33 views

Non-Linearity of a First Order ODE

I was working on the classification of ODEs as linear and non linear. For the equation $\ \frac{dy}{dx} = \frac{y(2-3x)}{x(1-3y)}$ I understand that it is a first order ODE where y is the independent ...
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1answer
80 views

I just need your approval

Verify by susbtitution if the given functions are a solution to the next differential equations. a) $$x^2y''+xy'-y=\ln x \quad ,\quad y_p=x^{-1}-\ln x $$ simplifying: $$ x^2y''+xy'-y=\ln x $$ $$ ...
0
votes
1answer
29 views

Can there be different values of $y_p$ for one equation?

For example, consider following example: Solution given by book is this: I solved it using different approach(as shown in the pic below) & got different answer. Is my solution wrong or ...
1
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1answer
69 views

Use of exclamation point

I'm quite puzzled by the use of an exclamation point in this paper. The authors introduce the following linear constraints to a quadratic program: $ \sum_k a^{(l)}_k b_j (\mathbf{x}_k) = r_j^{(l)} $ ...
1
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1answer
24 views

Question Regarding a Second Order Ordinary Differential Equation

I was wondering if the solution to the following differential equation belongs to a class of special functions. If not, is it exactly solvable? \begin{equation} ...
1
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3answers
49 views

Given $\dot x(t)=3x(t)$ and $x(0)=\frac32$ what is $x(2)$?

I believe this is a differential delay equation but I'm not sure. I've tried integration but that was confusing. It has also been suggested that I can find the original equation from the first ...
3
votes
0answers
38 views
+150

Solving a Matrix DE involving the KL divergence

If we let $U_\mu$ be a vector field that associates a direction vector $U_\mu(\pi)$ with each $\pi \in $ unit simplex. Each such vector field is associated with a system of ODEs: $$ \pi'(u) = ...
0
votes
4answers
89 views

How did author do this algebraic manipulation?

In some question of differential operator author did this algebraic manipulation without explanation. Can someone explain this? Did he do it by completing the square or $$(a^3 + b^3) = (a+b)(a^2 - ...
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0answers
11 views

Kernel, Green function and the functional derivative.

I am pretty new to the subject of differential equations and am reading about Green functions and Kernels for the first time. I am more familiar with functional differentiation and am comfortable with ...
3
votes
2answers
104 views
+200

Differential algebra and differential-algebraic equations

Could you give me some information about differential algebra? What is it about? Differential-algebraic equations (DAEs) are polynomials with complex coefficients and the unknown variables are $z, ...