10392
EXPLORE
LATEST
ABOUT
AUTHORING AREA
PARTICIPATE
Your browser does not support JavaScript or it may be disabled!
Connect the Dots
Starting at 0, a line is connected to successive dots, taking the specified step size. Can you predict whether each dot will be visited as the number of steps increases to the maximum?
Contributed by:
Ken Levasseur
(UMass Lowell)
SNAPSHOTS
PERMANENT CITATION
"
Connect the Dots
" from
the Wolfram Demonstrations Project
http://demonstrations.wolfram.com/ConnectTheDots/
Contributed by:
Ken Levasseur
(UMass Lowell)
Share:
Embed Interactive Demonstration
New!
Just copy and paste this snippet of JavaScript code into your website or blog to put the live Demonstration on your site.
More details »
Download Demonstration as CDF »
Download Author Code »
(preview »)
Files require
Wolfram
CDF Player
or
Mathematica
.
Related Demonstrations
More by Author
2D Root Systems
Oleksandr Pavlyk
Kirillov-Reshetikhin Crystals
Christian Korff
Cayley Graphs for Weyl Groups
Justin Paston-Cooper
Applying the Pólya-Burnside Enumeration Theorem
Hector Zenil and Oleksandr Pavlyk
Icosahedral Group Polyhedra
Ed Pegg Jr
The Fundamental Theorem of Finite Abelian Groups
Marc Brodie (Wheeling Jesuit University)
A Function Invariant under a Group of Transformations
Juan Luis Varona
Finite Field Tables
Ed Pegg Jr
The Action of the Modular Group on the Fundamental Domain
Andrzej Kozlowski
Generating 3D Figures with a Given Symmetry Group
Izidor Hafner
Related Topics
Algebra
Art
Group Theory
Number Theory
Patterns
High School Finite Mathematics
High School Mathematics
Puzzles and Recreations: Intermediate
School Puzzles and Recreations
Browse all topics
Note: To run this Demonstration you need Mathematica 7+ or the free Mathematica Player 7EX
Download or upgrade to
Mathematica Player 7EX
I already have
Mathematica Player
or
Mathematica 7+