Problem with estimating error

am
1 Mag 2019
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Aggiornato 1 Mag 2019
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Hi,
We are trying to calculate the error in a double pendulum with Runge Kutta method.
We first run the program for an h = 0.001 and saved the 4 values inside of a reference vector. We then normalized the vector and compared it's norm against results for bigger h.
The problem is that although h is divided by two in every step, the error seems to be growing.
Why is that happening?
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Walter Roberson
Walter Roberson il 1 Mag 2019
Heisenberg Uncertainty Principle. At some point, reducing the step size must increase the error, as otherwise you would be able to pinpoint both the position and the momentem simultaneously.
am
am il 1 Mag 2019
Hi, this method does not work for even big h such as 0.1.
Can you please look at our code?
Walter Roberson
Walter Roberson il 1 Mag 2019
0.1 Planck lengths is too small to work with. There are theoretical reasons to believe that space itself might not exist in any continuous form at scales that small.
Walter Roberson
Walter Roberson il 1 Mag 2019
Undefined function or variable t in the RKstep call.
You might be changing the h, but you are not resetting the time.
am
am il 1 Mag 2019
I moved in all the vectors and the t, the error is now getting smaller!
But it has not accurace O(h⁴) as expected?
am
am il 1 Mag 2019
Additionally, if I choose a smaller h, than I have a bigger error. Is it what you meant with Heinseberg uncertainity principle?

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am
am
il 1 Mag 2019

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am
am
il 1 Mag 2019

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