What's Happening in the Mathematical Sciences: Volume 13 by Dana Mackenzie
The Whats Happening in the Mathematical Sciences series presents a selection of recent discoveries and exciting fields of research in mathematics, explained in depth but in a slow-paced, reader-friendly way.
In the first few months of 2023, artificial brains like ChatGPT and GPT-4 were constantly in the news, and they have already turned into big business. One chapter in this book, Deep Learning: Part Math, Part Alchemy, explains how math disentangles hype from reality and explains some of the remarkable advances of machine learning. Meanwhile, Organizing the Chaos Inside the Brain explores animal brains, and describes how biologists can apply chaos theory to simulate the wanderings of a fly from firing data on neurons within its brain.
This issue of What's Happening also includes many treats for readers who like pure mathespecially those who are interested in geometry. In recent months and years, there have been unexpected discoveries in tiling (One Stone to Rule Them All), sphere-packing in more than three dimensions (A Fascination of Spheres) and the reconstruction of three-dimensional scenes from two-dimensional images (Multi-View Geometry: E Pluribus Unum). The chapter How to Draw an Alternate Universe will, as promised, open a door to a completely different, non-Euclidean universeor several of them. Shakespeares words, something rich and strange, only begin to describe them.
In How Mathematicians Unearthed the Stubborn Secrets of Fano Varieties, readers will learn about one of the building blocks of algebraic geometry, the branch of geometry that deals with surfaces defined by polynomial equations. The chapter Missing One Digit addresses a seemingly elementary problem in number theory: how many prime numbers do not have a 7 in them? The answer is easy to guessbut hard to prove. Fluid Flow: Two Paths to a Singularity discusses another guess that is hard to prove: can fluids in an enclosed region develop singularities akin to a breaking wave? Computer evidence is mounting that they canincluding some evidence from machine learning algorithms. (Which brings us full circle back to the Deep Learning chapter.)
Dana Mackenzie has written for the What's Happening series since Volume 6, published in 2006. In this volume he is joined by Leila Sloman, whose name will be familiar to many readers from her work for Quanta Magazine.
In the first few months of 2023, artificial brains like ChatGPT and GPT-4 were constantly in the news, and they have already turned into big business. One chapter in this book, Deep Learning: Part Math, Part Alchemy, explains how math disentangles hype from reality and explains some of the remarkable advances of machine learning. Meanwhile, Organizing the Chaos Inside the Brain explores animal brains, and describes how biologists can apply chaos theory to simulate the wanderings of a fly from firing data on neurons within its brain.
This issue of What's Happening also includes many treats for readers who like pure mathespecially those who are interested in geometry. In recent months and years, there have been unexpected discoveries in tiling (One Stone to Rule Them All), sphere-packing in more than three dimensions (A Fascination of Spheres) and the reconstruction of three-dimensional scenes from two-dimensional images (Multi-View Geometry: E Pluribus Unum). The chapter How to Draw an Alternate Universe will, as promised, open a door to a completely different, non-Euclidean universeor several of them. Shakespeares words, something rich and strange, only begin to describe them.
In How Mathematicians Unearthed the Stubborn Secrets of Fano Varieties, readers will learn about one of the building blocks of algebraic geometry, the branch of geometry that deals with surfaces defined by polynomial equations. The chapter Missing One Digit addresses a seemingly elementary problem in number theory: how many prime numbers do not have a 7 in them? The answer is easy to guessbut hard to prove. Fluid Flow: Two Paths to a Singularity discusses another guess that is hard to prove: can fluids in an enclosed region develop singularities akin to a breaking wave? Computer evidence is mounting that they canincluding some evidence from machine learning algorithms. (Which brings us full circle back to the Deep Learning chapter.)
Dana Mackenzie has written for the What's Happening series since Volume 6, published in 2006. In this volume he is joined by Leila Sloman, whose name will be familiar to many readers from her work for Quanta Magazine.