Wednesday, June 25, 2008

Not knitting related, but that's ok!
Please visit this site and go to the website too. This mama of two is fighting the same disease that Levi had. She is a beautiful woman and singer. So far she has lost her eyesight in one eye and her voice. Her wife is struggling with two children and one job to make ends meet. Download the songs on the 500kin365 website. It is only a dollar. And please pass the site on to your friends and family.

I wish there was more I could do.

Monday, June 23, 2008

Angie's Patriotic Potholder

Originally uploaded by MamaNak
I made this for a friend. She wanted red, white and blue and I finally found some cotton yarn by Peaches n Cream.
Free pattern available here.

Friday, June 20, 2008

Soaker #4 (FS btw)

I remade the soaker. I went up a couple of needle sizes and also a few stitches. Still came out too small for FatsyPatsy. GARRRGH! I had added some yarn over short rows
so the bum was perfect. The short rows make it roomier. But FP's chubby legs are just too round. Can't get it up over her cankles. So I have one beautiful, not quite perfect, girly size medium wool soaker for sale. Rise 16 inches and waist about the same. I will post pics and actual measurements shortly. Lucy is 20 lbs and too fat by a couple of pounds for it. Need a scrawnier 20 lber or a lighter weight fat baby for this soaker.
I paid probably about 8 bucks for the yarn?

Soaker info: rise 16-16.5, waist 16 inch at rest-22 stretched out. Thigh-8 inches $15 ppd

Monday, June 16, 2008

Soaker Insanity #3

Well, number 3 was going beautifully. Til it came out TOO small. I used cascade220 shrimp color 7804 and's fantasia 2. So soft and beautiful. So I frogged it. Completely back to the beginning. I was so sad. I had nearly finished it! I got to sit for about 2 hours last night while dh watched a movie and held a sleeping Lucy and knit. Usually I knit in 5 or 10 minute increments. With 3 kids, one of them newly potty learned and the other one 7 months old, knitting time is sparse. So it'll probably be at least another week before it's even close to being done. Oh the pattern I'm doing is a very basic top down, triangle, flat knit pattern. I am doing the size with 90 cast on stitches. My problem was I co only 88 on needles two sizes smaller than the pattern says to. I totally suck at trying to customize. If I had cast on on size 3 like it says to the waist would have been perfect.

Wednesday, June 11, 2008

Making math with yarn

Making math with yarn
Yarn work helping to provide answers to wide range of math problems
By Stuart Fox
ScienceLine writer
updated 7:06 p.m. CT, Fri., June. 6, 2008

Coral reefs can be crocheted. The atmosphere can be knit. And a stop sign can be folded into a pair of pants.

Welcome to the intersection of math and handicraft. Unexpectedly, handicraft in general, and yarn work in particular, has started to help provide answers to a wide range of mathematical problems. From the way the atmosphere generates weather to the shape of the human brain, knit and crocheted models have provided new insight into the geometry of the natural world.

"Crochet, knitting and other crafts allow people to visualize, recontextualize and develop new problems and answers," said Carolyn Yackel, a mathematician at Mercer University in Georgia.

Another prominent practitioner who uses yarn work, mathematician Hinke Osinga of the University of Bristol, puts it this way: "You can get bogged down in your own standard techniques of doing things, and then someone asks a silly question, and all of a sudden, you see a new way of interpreting things."

The math of handicraft was long dismissed as merely a cute trick or an inconsequential coincidence. Now, however, handicraft has begun to come into its own as a legitimate tool for mathematical research. This is especially true of knitting and crochet, which, thanks to the efforts of a new group of researchers, are now receiving a great deal of attention from the world of theoretical mathematics. Yackel and Osinga, along with Sarah-Marie Belcastro of Smith College and Daina Taimina of Cornell University, form the core of the group looking at the intersection of math and craft. Some of them are using craft to help answer math problems, while others are using math to answer knitting problems.

In 2005, there was a special session on math and the fiber arts during a joint meeting of the American Mathematical Society and the Mathematical Association of America. This conference, along with a newly released book based on the special session by its organizers, represents the newest expressions of a very old topic.

It is believed that the partnership between math and craft dates back to the invention of geometry, where the repetitive patterns seen in ancient baskets and weavings first hinted at a mathematical subtext to the world at large. Later, Alan Turing, the theorist and computer scientist, was often seen knitting Möbius strips and other geometric shapes during his lunch break.

The modern interest in math and craft began in 1997 when Taimina devised a plan for crocheting a hyperbolic plane. Hyperbolic planes are spaces of negative curvature (imagine the shape of a riding saddle) where all lines curve away from each other. Hyperbolic planes are fairly common in nature, appearing everywhere from the frills on a sea slug to growth patterns of coral to the way the brain folds.

The craft objects themselves tend to be common shapes, such as discs, spheres and cones. However, just as a triangle that normally only has 180-degrees worth of angles can have three 90-degree angles when drawn on a sphere, the shapes take on novel and surprising forms when projected across hyperbolic space.

Despite being widespread in nature and well understood in theoretical math, no good physical models of a hyperbolic shape existed until Taimina crocheted her first plane. In hyperbolic space, points move away from each other as the shape expands. While it is hard to model this using paper or plastic, it is easily replicated by simply increasing the number of stitches per row as the shape is knit or crocheted.

"What you can do is get a tactile insight. I theoretically understand the concept, but [the model] allows me to communicate it," said Taimina.

After Taimina's crocheted models gained a degree of notoriety, Hinke Osinga realized that if a hyperbolic plane could be modeled with crochet, then a model of the complex shape her research focused on could be made the same way. Osinga was looking at the Lorenz manifold, another shape that had yet to be presented in a physical model. Manifolds are shapes where the curved nature of the larger shape can be treated as a flat plane over short distances, like a 2-D road map sufficiently representing a portion of the 3-D Earth.

The Lorenz manifold models how objects move through a chaotic space such as a flowing river or the atmosphere. Various applications include meteorological prediction and spacecraft navigation. Before Osinga made her crochet Lorenz manifold, there had never been a physical model of this shape for reference.

Around the same time that Osinga was using craft to answer questions about math, Yackel and Belcastro began their attempt to answer questions raised by craft with math.

Belcastro designed a mathematical proof detailing why any topological surface can be knit. While seemingly limited to explaining yarn work, the proof could have ramifications for biology. A range of phenomena from shell growth to bird's nest-building replicate knitting by building up a structure one line at a time.

For Yackel, the research involved moving beyond knitting. Instead, she began using Japanese string balls called temari as the basis for designing a way to map out points on a sphere. Temari balls are decorative items made from colored strings wrapped around a small wooden or plastic sphere.

As the strings crisscross the surface of the sphere, they form intricate patterns. To approximate points on the sphere, temari artists use origami techniques that are actually just physical representations of very complex geometry.

Together, Yackel and Belcastro have co-edited a new book "Making Mathematics with Needlework: Ten Papers and Ten Projects." In it, they use the knitting of a baby's pants to show how, in certain types of mathematics, an octagon can be folded into a two-holed donut. Using their math, if one crocheted a stop sign, it could be folded into a pair of pants.

For all of the researchers involved in this field, pursuing the link between everyday objects and complex math hearkens back to the original impetus for devising geometry in the first place.

"We talk about the different experiences that lead people to geometry, and it began with making patterns," said Taimina. "How do you learn that something is round?"

This story is provided by Scienceline, a project of New York University's Science, Health and Environmental Reporting Program.

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