Tamás Görbe Profile picture
Jan 7, 2019 16 tweets 8 min read Read on X
Ever seen insects spiralling to a lamp? They actually want to fly in a straight line by looking at the light source at a constant angle. This would work with the Sun or Moon, but lamps fool them into flying along logarithmic spirals. [Wiki bit.ly/2Vzt2sf] #50FamousCurves
That "φ" should be a "t" in the parametric equations.
Fun fact about logarithmic spirals: They appear in the Mandelbrot set. Namely, the Seahorse Valley (the region between the "head" and the "body" of the set) is full of logarithmic spirals. #50FamousCurves Image
Fun fact about logarithmic spirals: They are self-similar. If you give them a full spin, you'll get an enlarged/shrunken copy of them. This is easy to explain using its equation r=aeᵇᵠ. If you replace φ by φ±2π (a full rotation) you get exp(±2πb)r. #50FamousCurves
Fun fact: Jacob Bernoulli called the logarithmic spiral Spira Mirabilis "Miraculous Spiral". He wanted it engraved on his tombstone with the motto Eadem mutata resurgo "Although changed, I rise again the same". They mistakenly engraved an Archimedean spiral on it. #50FamousCurves Image
How to draw a logarithmic spiral? Take a smooth rod and rotate it around an axis with constant angular velocity ω. Put a bead on the rod at distance d≠0 from the axis & give it an initial outward speed ωd. The bead will fly outward and trace a logarithmic spiral. #50FamousCurves
(I reuploaded this tweet to have it in the thread of the first logarithmic spiral post.)
Can you show that the angle between the tangent line and radial line is constant along the spiral? What is this angle? (Hint: Use the polar equation r=aeᵇᵠ.)
Fun fact about logarithmic spirals: The arms of spiral galaxies have the shape of logarithmic spirals. Our own galaxy, the Milky Way, has arms which are roughly logarithmic spirals with pitch of ≈12°. [Image credit: NASA/JPL-Caltech/ESO/R. Hurt] #50FamousCurves Image
How to draw a Fibonacci spiral? Draw squares with side lengths of Fibonacci numbers 1,1,2,3,5,8,... arranged in a spiral form. Draw quarter circles of radii 1,1,2,3,5,8,... inside the squares to get the Fibonacci spiral. It's approximately logarithmic. #50FamousCurves
In fact, the Fibonacci spiral (green) approximates the golden spiral (red), which is a logarithmic spiral with the special growth factor b=2ln(φ)/π, where φ=(1+√5)/2 is the golden ratio. Overlapping portions appear in yellow. [Source: Wikipedia Cyp&Jahobr] #50FamousCurves Image
Fun fact about logarithmic spirals: They arise as pursuit curves. Take a regular polygon and place pursuers at the vertices. As they're trying to capture their nearest neighbour going clockwise/anticlockwise with equal speeds, they trace logarithmic spirals. #50FamousCurves
Fun fact about logarithmic spirals: They appear all over Nature as spirals of growth. For example, nautilus shells grow with chambers arranged in an approximately logarithmic spiral. The blue curve is a logarithmic spiral with growth parameter b=ln(φ)/π≈0.153. #50FamousCurves Image
Nature by Numbers is a wonderful short film by Cristóbal Vila featuring logarithmic spirals. #50FamousCurves
Fun fact: Logarithmic spirals go around their centres infinitely many times getting closer and closer (following a geometric progression), but never actually reaching the centre. However, the length of a logarithmic spiral from any point to the centre is finite. #50FamousCurves
Fun fact: You have logarithmic sprials in your eyes! The nerves in the cornea (the eye's outmost layer) end in a roughly logarithmic spiral pattern. The images show a mouse's corneal nerve endings. The white bar on img B is 0.1mm. [Source: bit.ly/2M58jbB] #50FamousCurves Image

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More from @TamasGorbe

Oct 19, 2022
Gabriel's Horn is a solid you get by rotating the hyperbola y=1/x (with x>1) about the x-axis.

Having finite volume (π) and infinite(!) surface area, it leads to the apparent paradox:

"You can fill it with paint, but you cannot coat it." Image
The moral of this example is that infinity is a tricky concept and we need to be very careful with trusting our intuition when it comes to ∞.
The number of times I've seen people write things like

“∞ – ∞ = 0” or “∞ ÷ ∞ = 1”
Read 4 tweets
May 31, 2021
NEW PAPER
Free to read rdcu.be/clsVe

Earlier this year a friend* and I've solved a long-standing problem which, in part, meant finding the eigenvectors of this matrix. In this thread, I'll review our result and bits of 170 years of history

*J.F. van Diejen, Talca

1/n Image
The title of our paper is "Elliptic Kac–Sylvester Matrix from Difference Lamé Equation" and it was recently published in the mathematical physics journal Annales Henri Poincaré.

Article page: doi.org/10.1007/s00023…

2/n Image
Just to "name-drop" some of the characters that will appear in the story: Sylvester (duh), Jacobi, Boltzmann, two Ehrenfests, Schrödinger and Kac (obvs).

(I'll expand the thread over several days so please be patient.)

3/n
Read 33 tweets
Nov 17, 2020
"Here's a photo of my boy, Peter. He doesn't yet know what the continuum is, but he doesn't know what fascism is either." - George Szekeres' message to Paul Erdős.
Peter Szekeres was born in Shanghai, where his parents George Szekeres and Esther Klein escaped from Nazi persecution in 1938.
Happy Ending Theorem: any set of five points in the plane in general position has a subset of four points that form the vertices of a convex quadrilateral.

Erdős gave this name to the theorem, because it led to the marriage of Szekeres and Klein
Read 4 tweets
Oct 13, 2020
As a run-up to the "Introduction to Integrability" series (see my pinned tweet), I decided to share some interesting bits from the history of integrable systems.

Let's start at the beginning, shall we? So Newton... Image
#1 It all started with Newton solving the gravitational 2-body problem and deriving Kepler's laws of planetary motion as a result. I would argue that this was possible, because the Kepler problem is (super)integrable. [1/2] Image
This roughly means that there are many conversed physical quantities like energy, angular momentum, and the Laplace-Runge-Lenz vector. These conservation laws restrict the motion and allow for explicit analytic solutions of otherwise difficult equations. [2/2] Image
Read 5 tweets
Oct 12, 2020
I'm happy to announce "Introduction to Integrability", a series of 5 online lectures covering the basics of my research area, Integrable Systems.

The first lecture is on Thursday 22 October 3:30pm (BST).

You can register here:
icms.org.uk/V_INTERGRABILI…
The series is funded by the London Mathematical Society. It's also supported by ICMS as part of the ICMS Online Mathematical Sciences Seminars.
The series is targeted at postgraduate students, but everyone interested in learning about integrable systems is welcome.

A basic understanding of classical and quantum mechanics will be assumed.
Read 11 tweets
Sep 2, 2020
I thought of an integer between 1 and 100.

How many yes-no questions do you need me to answer so you find this number if you don't want to rely on luck?
What if you have to send me the full list of your questions first? How many questions will you need then?
How long is your list of yes-no questions if you know that I will forget to answer one of the questions?

(You will see which question is unanswered in my reply.)
Read 5 tweets

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