Sunday, October 27, 2019

Apolloniana

31 October and 7 November 2019

Jerzy Kocik 

Lattices, spinors, and classification of Apollonian disk packings.  Here are the first 21 irreducible classes of lattices.

More on "geometric Apolloniana".
(Simply "tinyURL.com/jkocik", if you need to retype it)

Here is Don's derivation of parametrization of \(x\), \(y\), \(z\), and \(w\) satisfying  $$x^2+y^2=zw$$ by three parameters \(\alpha\), \(\beta\), and \(\gamma\): $$ \begin{array}{rl} x=&\beta\gamma-\alpha^2\\ y=&\beta\gamma+\alpha^2-2\alpha\gamma-\alpha\beta \qquad\quad(1)\\ z=& -\alpha^2 -(\beta-\alpha)^2\\ w=&-\gamma^2-(\gamma-\alpha)^2\\ \end{array}$$ This would suggest the following parametrization of spinors: $$\mathbf a=\begin{bmatrix}\alpha\\\alpha\!-\!\beta\end{bmatrix},\quad \mathbf b=\begin{bmatrix}-\gamma\\ -\gamma\!+\!\alpha\end{bmatrix}$$ with   \(x=\mathbf b\times\mathbf a\),  \(y=\mathbf a\cdot\mathbf b\),  \(z=-\|\mathbf a\|^2\),  and  \(w=-\|\mathbf b\|^2\).  Another arrangement: $$\mathbf a=\begin{bmatrix}\alpha\\\alpha\!-\!\beta\end{bmatrix},\quad \mathbf b=\begin{bmatrix}\gamma\!-\!\alpha\\ -\gamma\end{bmatrix}$$ with   \(x=\mathbf a\cdot\mathbf b\),  \(y=\mathbf a\times\mathbf b\),  \(z=-\|\mathbf a\|^2\),  and  \(w=-\|\mathbf b\|^2\). 

Question:   Does \(2^2 + 8^2 = 4\cdot 17\) admit a representation by some \(\alpha\), \(\beta\), and \(\gamma\) of  Eq. (1)?


Wednesday, October 9, 2019

Energy

10 and 17 October 2019

K.V. Shajesh 

How does quantum vacuum energy gravitate?

Sunday, September 22, 2019

Numbers

Fordon James, "Primary spaces"
22 September and 3 October 2019

Don Redmond 

On representing integers as sums of four squares

Here are Don's notes on this subject

Wednesday, September 18, 2019

Trick and math

18 September 2019

Dinush Lanka 


Tricks, patterns and math behind it, revealed



Wednesday, September 4, 2019

Periodic Table

5 and 12 September 2019

Punit Kohli 


Periodic Table: patterns of elements



Here is the paper Mike has mentioned:
(Click here)

Title: How the modified Bertrand theorem explains regularities of the periodic table I. From conformal invariance to Hopf mapping 

Authors: Arkady L. Kholodenko, Louis H. Kauffman

Also:  a popular podcast "Battle of elements". 

Thursday, August 29, 2019

Spider-web

29 August 2019

Jerzy (Jurek) Kocik

Unexpected fractal -- a case of experimental mathematics

The question of the three dimensional case is addressed here:

Wednesday, April 17, 2019

C. Rose -- 3. 6. 9



18 April 2019

Christian Rose

The significance of 3, 6, and 9

Wednesday, April 10, 2019

Mathematics of time


Time and again

Free discussion.  Among the topics: mathematics of time in languages; causality, and more.

Plus plums in chocolate.


Sunday, April 7, 2019

Sugar

Promised long time ago.  Here is a small selection of articles:

This is your brain on sugar
Eating Sugar Makes You Stupid
How sugar literally destroys your health and makes you stupid


I will bring some cookies for the next meeting...

Thursday, March 28, 2019

K.V. Shajesh - retarded time



28 March and 4 April,  2019

K.V. Shajesh
Retarded Time

Shajesh kindly shares his notes with us.  And here is  a worksheet that illustrates some counter-intuitive features of retarded time, which he also used as a homework problem in his class.

Also, Punit sends a message:


Please read in the middle of the document about Pauli's comment on Einstein, american physicists, and american journalism.


Albert Einstein, celebrity physicist: Physics Today: Vol 72, No 4

Paul Halpern is a professor of physics at the University of the Sciences in Philadelphia. He is the author of Einstein’s Dice and Schrödinger’s Cat (2015) and The Quantum Labyrinth: How Richard Feynman and John Wheeler Revolutionized Time and Reality (2017).


Wednesday, March 20, 2019

M. Sayeh: time

21 March 2019

Mohammad Sayeh
Time and the hazardous F-word

This will be a non-mathematics seminar on time, freedom, and related issues.  I understand we need to review I. Kant, Bergson, etc. before the meeting. 

Wednesday, February 27, 2019

From http://www.math.is.tohoku.ac.jp/english/about/laboratories.html 
28 Feb 2019
7 Mar 2019

Don Redmond 

Evaluating the Riemann zeta function

Here are Don's notes that he kindly shares with us (+ his description):

There is some notes on a version of Euler's early attempts (Euler and the Basel Problem). Then there is the set of notes on the actual evaluation of zeta(2n). Finally, there are some notes on generating functions, which I am sending along because they include the details on some of the properties of Bernoulli numbers.


You need to download the files before opening to see the equations.