11408
EXPLORE
LATEST
ABOUT
AUTHORING AREA
PARTICIPATE
Your browser does not support JavaScript or it may be disabled!
Fermat's Little Theorem
If
is prime then
for all natural numbers
. The number at the bottom of the display is
.
Contributed by:
Michael Schreiber
THINGS TO TRY
Slider Zoom
SNAPSHOTS
RELATED LINKS
Fermat's Little Theorem
(
Wolfram
MathWorld
)
PERMANENT CITATION
"
Fermat's Little Theorem
" from
the Wolfram Demonstrations Project
http://demonstrations.wolfram.com/FermatsLittleTheorem/
Contributed by:
Michael Schreiber
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
Binomial Theorem (Step-by-Step)
Bruce Colletti
Gaps between Successive Primes
Daniel de Souza Carvalho
Prime-Generating Recurrence
Eric Rowland
The Bouniakowsky Conjecture
Ed Pegg Jr
Coloring Cycle Decompositions in Complete Graphs on a Prime Number of Vertices
Michael Morrison
Dirichlet's Theorem
Jay Warendorff
Laws of Exponents
George Beck
Gaps between Consecutive Primes
Michael Schreiber
Matrix Rank of Arrays in Coprimality Tensor
Michael Schreiber
Comparison of Factorials and Primorials
Michael Schreiber
Related Topics
Algebra
Cryptography
Discrete Mathematics
Identities
Number Theory
Prime Numbers
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+