10 JUL 2026 - Back up to full speed! Let's be honest: for the last few months, TorrentFunk was painfully slow. Pages crawled, searches dragged, and just loading the site tested everyone's patience. We hunted the problem down to our network and rebuilt it from the ground up — smarter caching, a much bigger and faster connection, and a lot of fine-tuning under the hood. The difference is night and day: the site now loads in a fraction of a second. No more waiting around. Thanks for sticking with us through the slow spell. Now go discover your funk!
TORRENT DETAILS
Nelsen R. Math Made Visual. Creating Images...2006
TORRENT SUMMARY
Status:
All the torrents in this section have been verified by our verification system
Is it possible to make mathematical drawings that help to understand mathematical ideas, proofs and arguments? The authors of this book are convinced that the answer is yes and the objective of this book is to show how some visualization techniques may be employed to produce pictures that have both mathematical and pedagogical interest. Mathematical drawings related to proofs have been produced since antiquity in China, Arabia, Greece and India but only in the last thirty years has there been a growing interest in so-called "proofs without words". Hundreds of these have been publised in Mathematics Magazine and The College Mathematics Journal, as well as in other journals, books, and on the Internet. Often times, a person encountering a "proof without words" may have the feeling that the pictures involved are the result of a serendipitous discovery or the consequence of an exceptional ingenuity on the part of the picture's creator. In this book the authors show that behind most of the pictures "proving" mathematical relations are some well-understood methods. As the reader shall see, a given mathematical idea or relation may have many different images that justify it, so that depending on the teaching level or the objectives for producing the pictures, one can choose the best alternative. Content: Visualizing mathematics by creating pictures Representing numbers by graphical elements Representing numbers by lengths of segments Representing numbers by areas of plane figures Representing numbers by volumes of objects Identifying key elements Employing isometry Employing similarity Area-preserving transformations Escaping from the plane Overlaying tiles Playing with several copies Sequential frames Geometric dissections Moving frames Iterative procedures Introducing colors Visualization by inclusion Ingenuity in 3 D Using 3D models Combining techniques Visualization in the classroom Hints and solutions to the challenges
VISITOR COMMENTS (0 )
FILE LIST
Filename
Size
Nelsen R. Math Made Visual. Creating Images...2006.pdf