### Author Topic: Section 2.6 Example 1 correction  (Read 1014 times)

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• Karma: 4 ##### Section 2.6 Example 1 correction
« on: February 05, 2018, 08:49:23 PM »
I believe on section 2.6, example 1 there is a mis-referencing of equation (4) (D'Alembert's) in place of equation (5) (General Solution to wave equation). In Example 1, it says:

"Plugging (4) we see that $$\phi(ct)+\psi(−ct)=p(t)$$ as $$t>0, t>0$$", (4) referring to D'Alembert's formula. However, I believe it results from plugging $$p(t)$$ into (5), the general solution $$u(x,t)=\phi(x+ct)+\psi(x−ct)$$

Again, later, it says:

"Then plugging $$x:=x+ct$$ into (6) and $$x:=x−ct$$ into (9) and adding we get from (4) that $$\begin{multline} u(x,t)= \underbracket{\frac{1}{2}g(x+ct)+ \frac{1}{2c}\int_0^{x+ct}h(x')\,dx'}_{=\phi(x+ct)}+ \\ \underbracket{p(t-x/c)-\frac{1}{2}g(ct-x) -\frac{1}{2c}\int_0^{ct-x} h(x')\,dx'}_{=\psi(x-ct)}. \qquad \end{multline}$$

Again, I believe this results from plugging the results into (5) and not (4).

I apologize if this correction seems a bit trivial but I personally had a bit of difficulty understanding where the results came from. Or maybe I am wrong and am missing something.
« Last Edit: February 05, 2018, 08:51:38 PM by Adam Gao »

#### Jingxuan Zhang

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• Karma: 20 ##### Re: Section 2.6 Example 1 correction
« Reply #1 on: February 06, 2018, 07:28:59 AM »
I noticed this too. I seems to me a problem as well.

#### Ioana Nedelcu

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• Karma: 3 ##### Re: Section 2.6 Example 1 correction
« Reply #2 on: February 06, 2018, 02:48:20 PM »
Yeah I think it means to say that you use the initial boundary condition to get $\phi(ct)+\psi(−ct)=p(t)$. Then you solve for $\psi(x), x <0$ and plug d'Alembert's solution for $\phi(-x)$ into the equation

#### Victor Ivrii ##### Re: Section 2.6 Example 1 correction
« Reply #3 on: February 06, 2018, 07:19:11 PM »