How long is england coast?

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In summary: Does this mean that the fractal dimensions obtained from the Richardson plot may vary with the linear scale of measurement?In summary, the conversation discusses the possibility of assigning a metric to define distances for curves that exhibit fractal behavior. The concept of fractal dimension is introduced, which is a measure of how a fractal object scales when enlarged by a factor. It is pointed out that real-world fractals have a limited range of scales and do not exhibit fractal behavior at the atomic scale. The conversation also touches on the relationship between fractals and linear quantum mechanics, and the potential role of Planck's constant in fractal behavior. Finally, the topic of calculating fractal dimensions using the Richardson plot is discussed, with the understanding that these
  • #1
eljose79
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assuming its coastline is given by a (fractal) nowhere differentiable but continuous function...so the expresion for distance integral ds**2=1+(y´)**2 is not valid?..in fact..how do you meassure a fractal distance, surface or volume?.

-Can you assign a metric to define distances if curves are fractals?...could we construct with that metric integrals or derivativess?.
 
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  • #2
AFAIK, a fractal has the following property:

The fractal is made of n parts which, enlarged by a factor s (scale), equal the original.
We know this from normal geometry:
Length of line (1-dimensional): n = s
Area of figure (2-dim): n = s^2
Volume of body (3-dim): n = s^3

We could generalize n = s^d, where d is the 'dimension',
yielding d = ln(n)/ln(s).

Now take e.g. Koch's fractal which has n = 4, s = 3.
You get d ~ 1.262
which is not an integer, but a 'fraction'.
That's why it's called a fractal :wink:. Having 'fractal dimension'.

From this it follows that the volume (length, area,...) of Koch's fractal cannot be measured in meters, nor m^2, ... Instead, the appropriate unit to use would be m^1.262... which makes no sense really.

Forget England's coast, that's a bad example. It doesn't have the property required from a fractal.
 
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  • #3
You probably need to define a "depth" for the fractals. A limit to how far you can zoom in. I've never studied it though.
 
  • #4
When dealing with fractals in real life, it is often wise to use a band limit (the 'depth') to limit how fine the fractal gets. A pure fractal coastline by definition has infinite length. However a real one would have some other lenght, given by the number of smallest sized increments that exist along the perimiter of the coastline, which in turn are determined by the exact specifications of your band limit.
 
  • #5
An interesting point comes up. With Koch's fractal, Serpinski's triangle or the Cantor set, an exact scale factor may easily be specified. Is it possible to show for fractals in general that a one-to-one mapping exists which replicates precisely the fractal between different scales?
 
  • #6
Originally posted by Loren Booda
Is it possible to show for fractals in general that a one-to-one mapping exists which replicates precisely the fractal between different scales?

It depends on whether you mean ideal fractals or anything which exhibits fractal behvaiour?

As far as the original question ... what is the length of Englands coastline? This was the basis for the beginnings of fractal geometry. A guy called richardson examined the coastlines for different countries at different scales and plotted a graph of:

ln(coastline length) against ln(measuring stick)

See here for a richardson plot

It turns out that the UK has a fractal dimension of about 1.24. However as has been pointed out already the fractal behaviour of real world fractals (pseudo-fractals) only exists over a certain range of scales. What you usually find is that the linear relationship in the richardson plot would approach limits at the two measuring extremes i.e. measuring stick ~ size of the county or ~size of the smallest elements e.g. atoms. This is quite well documented (I have a paper which addresses this if anybody want's it - just let me know). As far as the length goes ... the length probably can be measured ... one just needs to have a measuring stick approx same size as the smallest elements. But there is probably not much point in doing that as it doesn't really tell you anything of value.

Anyhow that's enough of my ranting :smile: I hope this helps.
 
  • #8
Also interesting that (pseudo)fractals should be based eventually on linear quantum mechanics. Is there a theory that shows how this can happen? Do all physical "fractals" exhibit (pseudo)scaling dependent in some regard on Planck's constant? Is it possible for (pseudo)linear behavior to be based on fractal origins?
 
  • #10
Originally posted by Loren Booda
Also interesting that (pseudo)fractals should be based eventually on linear quantum mechanics. Is there a theory that shows how this can happen?

I'm not sure what you mean by this. Could you clarify?

Originally posted by Loren Booda
Do all physical "fractals" exhibit (pseudo)scaling dependent in some regard on Planck's constant?

Depends on the physical fractal. If you look at dendritic patterns such as diffusion limited aggregates then no. The scaling exponents are related to the process involved. So for example if you take the Koch curve then the fractal dimension is defined according to the motif you replace line segments with. This is why it can be calculated analyticaly. I suppose really planks constant comes in when you have a pseudo fractal extending all the way down to the atomic scale e.g. fracture surfaces. Typically though most real world fractal behaviour is limited to a range of scales and doesn't always extend down to the atomic scale.
 
  • #11
sir-pinski:

Can fractals arise from a linear quantal medium? I. e., how can (pseudo?)fractals generate up from or down to the linear Schroedinger equation scale? As you mentioned, all physical "fractals" may actually be pseudofractals.
 

1. How is the length of England's coast measured?

The length of England's coast is measured using a technique called the "coastline paradox". This involves tracing the perimeter of the landmass at a specific scale and adding up all the small segments to get an estimate of the length.

2. What is the current estimated length of England's coast?

The current estimated length of England's coast is approximately 7,723 miles (12,426 kilometers). This measurement includes all the intricate details of the coastline, such as bays, inlets, and small islands.

3. How does England's coast compare to other countries?

England's coastline ranks sixth in the world in terms of length. It falls behind Norway, Indonesia, Greenland, Russia, and the USA. However, it is the longest coastline in Europe.

4. Is the length of England's coast constantly changing?

Yes, the length of England's coast is constantly changing due to natural processes such as erosion and deposition. It can also be affected by human activities such as land reclamation.

5. Why is it important to know the length of England's coast?

Knowing the length of England's coast is important for many reasons. It helps us to understand the dynamics of the coastline and monitor changes over time. It also has practical applications, such as planning for coastal management and tourism development.

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