© | Dror Bar-Natan: Classes: 2004-05: Math 157 - Analysis I: | (12) |
Next: JHU's Zucker on Math Courses
Previous: Class Notes for Tuesday September 21, 2004 |

Assigned Tuesday September 28; due Friday October 8, 2PM,
at SS 1071

this document in PDF: HW.pdf

**Required reading. ** All of Spivak's Chapters 2 and
3.

**To be handed in. **
From Spivak Chapter 2: 1, 5.
From Spivak Chapter 3: 6, 13.

**Recommended for extra practice. **
From Spivak Chapter 2: 3, 4, 12, 22.
From Spivak Chapter 3: 1, 7, 21.

**An extra problem: ** (recommended, but do not
submit) Is there a problem with the following inductive proof that all
horses are of the same color?

We assert that in all sets with precisely horses, all horses are of the same color. For , this is obvious: it is clear that in a set with just one horse, all horses are of the same color. Now assume our assertion is true for all sets with horses, and let us be given a set with horses in it. By the inductive assumption, the first of those are of the same color and also the last of those. Hence they are all of the same color as illustrated below:

**Just for fun. ** From Spivak Chapter 2: 27, 28,
and also, more on Chapter 2, Problem 22:

- We know that if and are non-negative then . This is the same as saying that , which is the same as saying that the area of four by rectangles is less than or equal to the area of a square with side . Can you actually fit four by rectangles inside a square of side without overlaps? It's fun and not too hard.
- We know that if , and are non-negative then . This is the same as saying that , which is the same as saying that the volume of 27 by by rectangular boxes is less than or equal to the volume of a cube with side . Can you actually fit 27 such by by rectangular boxes inside a cube of side without overlaps? This is also fun, but quite hard. You have no chance of doing it without a physical model. Make yourself one!
- The corresponding problem in 4D, involving 256 boxes of size , is actually a little easier, though trickier, than the 3D problem. Can you do it?
- The corresponding problem in 5D, involving 3,125 boxes of size , is an open problem -- meaning that nobody knows how to solve it. Can you?

Horse picture from
http://lib.allconet.org/story_hour.htm.

The generation of this document was assisted by
L^{A}TEX2`HTML`.

Dror Bar-Natan 2004-09-27