Drexel dragonThe Math ForumDonate to the Math Forum

Ask Dr. Math

High School Archive

_____________________________________________
Dr. Math Home || Elementary || Middle School || High School || College || Dr. Math FAQ
_____________________________________________

TOPICS
space
This page:
  discrete math checkmark

  Search
  Dr. Math

See also the
Dr. Math FAQ:
  permutations and
  combinations

Internet Library:
  discrete math



HIGH SCHOOL

About Math
Analysis

Algebra
   basic algebra
   equations/graphs/
     translations
   linear algebra
   linear equations
   polynomials

Calculus
Complex Numbers
Calculators/
   Computers
Definitions

Discrete Math
   permutations/
   combinations
Exponents
   Logarithms

Fibonacci Sequence/
  Golden Ratio
Fractals
Functions

Geometry
   Euclidean/plane
     conic sections/
       circles
     constructions
     coordinate plane
     triangles/polygons
   higher-dimensional
     polyhedra
   non-Euclidean
   practical geometry
   symmetry/tessellations

History/Biography
Interest
Logic
Negative Numbers

Number Theory
Physics/Chemistry
Probability
Projects

Puzzles
Sequences/Series
Sets
Square/Cube Roots

Statistics
Transcendental
  Numbers
Trigonometry

Browse High School Discrete Math
Stars indicate particularly interesting answers or good places to begin browsing.

Selected answers to common questions:
    Four-color map theorem.
    How many handshakes?
    Squares in a checkerboard.
    Tournament scheduling.
    Venn diagrams.



Occupancy Problem [08/06/2001]
Given n bins and m (indistinguishable) balls, how many arrangements are possible such that no bin has greater than r balls?

Odd and Even Vertices [1/30/1996]
We are trying to trace networks without crossing a line or picking up our pencils, but how can we know if a vertex is odd or even?

Odd Number of Hands, Even Number of People [08/31/2001]
Every person on earth has shaken a certain number of hands. Prove that the number of persons who have shaken an odd number of hands is even.

The Official Euclidean Algorithm [11/16/2000]
Can you state briefly the "official" Euclidean Algorithm?

One-to-One Correspondence of Infinite Sets [03/26/2001]
How can I prove that any two infinite subsets of the natural numbers can be put in a 1-1 correspondence?

Onto Functions and Stirling Numbers [09/22/2002]
How would I show for m greater than or equal to 3 that s(m, m-2) = (1/ 24)m(m-1)(m-2)(3m-1), where s(m,n) are Stirling numbers of the first kind?

Opening and Closing 1000 Lockers [03/16/1997]
There are 1000 closed lockers and 1000 students. The first student opens every locker; the second student reverses every other locker...

Optimal Seating Arrangements [07/20/2000]
N people are invited to a party and asked to RSVP with the names of up to k people they would like to sit with. Is there a formula that will yield the "best" arrangement of people?

P(2n,3) = 2P(n,4) [10/08/2002]
Solve: P(2n,3) = 2P(n,4)

Partitioning Elements [12/08/2001]
If part(n,k) is the number of ways to partition a set of n elements into k subsets, what is Part(5,2)? Prove Part(n+1,k) = Part(n,k-1)+k* Part(n,k)...

Partitioning the Integers [3/15/1995]
One of my students chose the topic of partitions of the positive integers....

Partitions and Triangle Inequality [5/26/1995]
How is the number of different triangles with integer sides related to the perimeter of the triangle?

Pascal's Triangle and Powers of 11 [02/21/1999]
Finding the powers of 11 in the rows of Pascal's triangle.

Pascal's Triangle Tidbits [4/5/1995]
My friend and I are doing a math fair project on Pascal's Triangle...

Pascal's Triangle: Words instead of Numbers [08/28/2001]
How many times can you read the word "triangles" in the figure?

Patterns in Pascal's Triangle [07/21/1997]
I am working on a project about Pascal's triangle trying to find as many patterns as I can and prove them by induction.

A Phone Chain [10/28/1998]
In a phone chain of people, the first person gets a call and calls two people, and so on. How long does it take to call 55 people?

Pick's and Euler's Theorems [05/06/1999]
What is Pick's theorem and how can it be linked with Euler's theorem?

Pick's Theorem, Lattice Points, and Area [08/27/1998]
What is a lattice point, and how does it relate to the area of a triangle, rectangle, and a circle?

Pieces on a Chess Board [10/27/1996]
Prove that with 9 separate playing pieces, you cannot place the pieces on an 8 by 8 chess board such that the distance between any 2 pieces is always different.

Primes that are Sums of Primes [06/22/1999]
Is there an nth prime number, p, (other than 5, 17 and 41) that is equal to the sum of the prime numbers up to n? For example, the 7th prime is 17=2+3+5+7.

Primes That Are the Sum of 2 Squares [09/17/1999]
How can I prove that every prime of the form 4m + 1 can be expressed as a sum of two squares?

Probabilities and Expected Value in Seating Arrangements [05/12/1998]
Three couples are seated at random around a round table. Let M denote the number of husbands seated next to their wives ...

Probability Transition Matrices [02/10/1999]
How do you use probability transition matrices to find probabilities after the first transition?

Product of Disjoint Cycles [10/16/1998]
How to express (1 2 3 5 7)(2 4 7 6) as the product of disjoint cycles.

Product of Two Primes [10/27/1999]
How many positive integers less than 100 can be written as the product of the first power of two different primes?

Programs to Find Prime Numbers [11/27/1996]
Can a program be written in BASIC to compute the number of prime numbers smaller than n?

Projects on Puzzles or Mazes [11/13/2002]
I would like to do a project that involves applying mathematics to areas like puzzles or mazes.

Proof by Contradiction: e^n.... [7/5/1996]
I'm trying to prove that e^n (n is a natural number) is not O(n^m) for any power of m...

Proof by Induction [4/3/1996]
I was given a proof by my math teacher: by mathemetical induction, prove that i(nCi) = n2^n-1.

Proof by Induction [7/3/1996]
How can I prove through induction that 1+1/4+1/9+ ... 1/n^2 < 2- 1/n for all n > 1?

Proof by Induction [06/15/1999]
How can I show by induction that (4^n)-1 is divisible by 3 for all n >= 1?

Proof by Induction [05/07/2003]
If n is greater than or equal to 6, prove that n! is greater than or equal to n(2^n).

Proof by Mathematical Induction [09/24/1999]
Prove the following statement by mathematical induction: for any integer n greater than or equal to 1, x^n - y^n is divisible by x-y where x and y are any integers with x not equal to y.

Proof Involving mod 5 [10/27/2002]
Prove n^2 mod 5 = 1 or 4 when n is an integer not divisible by 5.

Proof of Ordered Partioning of Integers [07/31/2001]
I have found that there are 2^(n-1) ways to partition an integer (where order matters and all positive integers are available), but need a proof for this seemingly simple formula.

Proofs of the Two-Color Map Theorem [03/19/2003]
Suppose a map is drawn using only lines that extend to infinity in both directions; are two colors sufficient to color the countries so that no pair of countries with a common border have the same color?

Proof that an Even Number Squared is Even [06/02/1999]
How do you prove that any even number squared is even and any odd number squared is odd?

Proof That Brussels Sprouts Game Ends in 5n - 2 Moves [04/15/2005]
How can I prove that the game Brussels Sprouts always ends in 5n - 2 moves?

Quadrilaterals in a 3x3 Array of Dots [03/10/1999]
Counting them with combinatorics, then taking away degenerate cases.

Page: [<prev]  1  2  3  4  5  6 [next>]

Search the Dr. Math Library:

Search: entire archive just High School Discrete Mathematics

Find items containing (put spaces between keywords):
 
Click only once for faster results:

[ Choose "whole words" when searching for a word like age.]

all keywords, in any order at least one, that exact phrase
parts of words whole words


[Privacy Policy] [Terms of Use]

_____________________________________
Home || The Math Library || Quick Reference || Search || Help 
_____________________________________

© 1994-2014 Drexel University. All rights reserved.
http://mathforum.org/
The Math Forum is a research and educational enterprise of the Drexel University School of Education.The Math Forum is a research and educational enterprise of the Drexel University School of Education.