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ODE

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ValeryOchkov
24-Ruby IV
24-Ruby IV
‎Oct 06, 2023 02:36 AM
‎Oct 06, 2023 02:36 AM

ODE

Is it possible to solve the ODE in attach?

Thanks!

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Tramway.mcdx
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Werner_E
25-Diamond I
25-Diamond I
(To:ValeryOchkov)
‎Oct 06, 2023 03:20 AM
‎Oct 06, 2023 03:20 AM

How about

Werner_E_0-1696576665282.png

 

Werner_E_1-1696576818214.png

You can avoid the numerical glitch at about x=7.7 seen in the pic either by setting TOL to 10^-6 or lower or by adding 10^5 as the third argument (intervals) of the odesolve function

 

 

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2 REPLIES 2
Werner_E
25-Diamond I
25-Diamond I
(To:ValeryOchkov)
‎Oct 06, 2023 03:20 AM
‎Oct 06, 2023 03:20 AM

How about

Werner_E_0-1696576665282.png

 

Werner_E_1-1696576818214.png

You can avoid the numerical glitch at about x=7.7 seen in the pic either by setting TOL to 10^-6 or lower or by adding 10^5 as the third argument (intervals) of the odesolve function

 

 

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LucMeekes
23-Emerald III
23-Emerald III
(To:ValeryOchkov)
‎Oct 08, 2023 06:07 AM
‎Oct 08, 2023 06:07 AM

The derivative of the function y(x) you are looking for, so y'(x), is (+ or -):

LucMeekes_3-1696759512614.png

where c is a constant.

Proof:

LucMeekes_1-1696758549003.png

To find y(x) you have to integrate this function y'(x), which will give you another integration constant.

 

Success!
Luc

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