Integration problem
∈=p/Ao((1-(x/2L) *E^(-1)
I am trying to integrate the above. For clarity p is over Ao((1-(x/2L) and then all multiplied by E^(-1). Do I need to deal with the Ao((1-(x/2L) first?
Thanks in advance Paul
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∈=p/Ao((1-(x/2L) *E^(-1)
I am trying to integrate the above. For clarity p is over Ao((1-(x/2L) and then all multiplied by E^(-1). Do I need to deal with the Ao((1-(x/2L) first?
Thanks in advance Paul
(No subject)
Hi Paul, I understand you
Hi Paul, I understand you need to integrate the equation but you did not present to us the variable of integration. Assuming your variable is x then other symbol like p, Ao, L, and E are constants. Am I right? If so, is this your equation?
$\displaystyle \epsilon = \int \dfrac{pE^{-1}}{A_o \left( \dfrac{1 - x}{2L} \right)} \, dx$
Assuming my interpretations are correct, here is how to integrate it:
$\displaystyle \epsilon = \int \dfrac{pE^{-1}}{A_o \left( \dfrac{1 - x}{2L} \right)} \, dx$
$\displaystyle \epsilon = \dfrac{2pL}{EA_o}\int \dfrac{dx}{1 - x}$
$\displaystyle \epsilon = -\dfrac{2pL}{EA_o}\ln (1 - x) + C$
Hi Romel, you are correct
In reply to Hi Paul, I understand you by Jhun Vert
Hi Romel, you are correct variable is x. I couldn't paste the equation in. The e-1 should be multiplied by the p/A0 equation, but I think I understand it. I need to run some software now and compare the hand calcs.
The other way that I looked
The other way that I looked at your equation is this:
$\displaystyle \epsilon = \int \dfrac{pE^{-1}}{A_o \left(1 - \dfrac{x}{2L} \right)} \, dx$
$\displaystyle \epsilon = \dfrac{p}{EA_o}\int \dfrac{dx}{\dfrac{2L - x}{2L}}$
$\displaystyle \epsilon = \dfrac{2pL}{EA_o}\int \dfrac{dx}{2L - x}$
$\displaystyle \epsilon = -\dfrac{2pL}{EA_o}\ln (2L - x) + C$
https://www.flickr.com/photos
In reply to The other way that I looked by Jhun Vert
https://www.flickr.com/photos/baldypaul/33086782230/in/datetaken/
If you copy and paste the link Romel you will see my original equation I am trying to integrate to x
(No subject)
https://www.flickr.com/photos
https://www.flickr.com/photos/baldypaul/33086782230/in/datetaken/
If you copy and paste the
If you copy and paste the flicker link you will see the equation I am trying to solve Romel