Piazza Class page.
Week 12: 6 April 2020.
- Opening Remarks:
The rest of our book treats more modern topics in mathematics, focussing on the pure side and ignoring analysis (I think this reflects
Stillwell's proclivities).
This week, we will read about the beginnings of modern algebra, first the rise of group theory and then hypercomplex numbers.
I found the exercises in the chapter on group theory to be a bit heavy; do read the chapter to get a feeling for the development of
that topic and its birth in the theory of equations.
Despite what Stillwell says, groups and solving equations do keep coming up in mathematics and its applications.
I am (still) planning to run a conference at the ICERM on Galois groups in geometry and applications of mathematics in September.
Stillwell is right to note that this is no longer a central theme in mathematics.
The chapter on hypercomplex numbers shows how even if you wish something to be so, it may not be.
Hamilton and others wanted to find a three-dimensional system of numbers that behaved like the real numbers (one-dimensional) and also complex
numbers (two-dimensional).
Instead, he found a four-dimensional system, called the quaternions, which almost behaves like the others, except that it is
noncommutative.
It is hard to overstate the importance of this discovery.
You all know that many operations, from multuplying matrices to dressing one's self depend upon the order in which they are applied
(socks first and shoes second is quite different from shoes first and socks second!).
This noncommutativity ended up being crucial for the development of quantum mechanics, which enables, for example, a computer smaller than the size
of a room with the capabilities of the laptop I am typing on, not to mention the screen I am looking at, and etc.
Also, the unit quaternions form a multiplicative group which is equivalent to the group of rotations in R3.
Consequently, every person working in computer animation uses them, and their multiplication is hard-wired into all graphics chips in
computers and cell phones.
My knowing this led to my collaborating with two applied mathematicians on a paper inspired by a problem in determining the structure of a
certain class of proteins, and then to one of my more influential papers in the past decade.
The last sections go into overdrive where he talks about the octonians.
Read them, but I did not assign exxercises from them.
This week is supposed to be a bit light, to give you more time to search for a topic for your
term paper.
- Reading:
-
Chapters 19 and 20 in Stillwell.
- Assignment: due Monday, 13 April 2020. (HW 13)
To hand in: We are using E-campus for homework submission.
- Do exercises 19.1.2, 19.1.3, 19.1.4, and 19.1.5. Each is a single-step deduction from the previous; I am hoping this is not too onerous.
- In Chapter 20, do the exercises 20.5.1, 20.5.2, and 20.5.3.
Last modified: Mon Apr 13 11:52:15 CDT 2020