See also the
Dr. Math FAQ:
0.9999 = 1
0 to 0 power
n to 0 power
0! = 1
dividing by 0
Browse College Number Theory
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Selected answers to common questions:
Testing for primality.
- Partitions and Products [01/02/2003]
What is the best way of dividing an integer into parts so that the
product of the parts will be as large as possible? Is there a
universal law that tells us what partition will produce the maximum
product for any given number? And can such a law be proved?
- Patterns in Repeating Decimals [08/06/2003]
Why do certain number sequences repeat in the decimal expansions of
- Pell-like Diophantine Equations [10/05/2010]
How do you solve exponential Diophantine equations in two variables? Even after
seeing recurrence relations and modular arithmetic simplify his original problem, a
student remains curious about additional strategies, so Doctor Vogler obliges by
outlining more advanced methods.
- Perfect Numbers [06/15/2002]
Please show that any even perfect number ends in 6 or 8.
- Perfect Square [10/26/2001]
If a and b are positive integers such that (1+ab) divides (a^2+b^2), show
that the integer (a^2+b^2)/(1+ab) must be a perfect square.
- Pigeonholes and Remainders [12/27/2003]
How can I show that in any collection of 52 distinct positive
integers, there will be two distinct numbers whose sum or difference
will be divisible by 100?
- Polya-Burnside Lemma [07/02/1999]
Given unlimited amounts of 2 types of beads, how many unique necklaces
can you make using exactly k beads?
- Polynomial Divisible by 7 [11/14/2001]
Prove that 2^(3n+1) + 4^(3n+1) + 1 is divisible by 7.
- Powers of 2 Proof [03/24/2003]
Prove that any number that is not a power of 2 can be expressed as a
sum of two or more consecutive positive integers, but that this is
not possible for powers of 2.
- Predicting Number of Decimal Digits in a Binary Number [03/10/2004]
I am trying to write a function that will return the number of decimal
digits from a binary number without actually converting from binary to
decimal. Is there a way to determine which length is correct without
going through a complete conversion?
- Primality Testing [12/02/2004]
How can I determine if a given number is prime?
- Prime Factors, Modular Arithmetic, and Using Pari [08/08/2007]
Suppose we have two positive integers 'a' and 'b'. Is there a method
to find a positive integer 'k', such that a + bk = x^2 for some
integer 'x'? In other words, how can we find a positive integer 'k',
such that 'a + bk' is a square?
- Prime Numbers between N and 1+N! [04/25/2003]
Prove that for each natural number N, there exists a prime number Q
such that N is less than or equal to Q and Q is less than or equal to
1 + N!
- Prime Numbers Proof [05/23/2005]
Prove that every prime number is the leg of exactly one right triangle
with integer sides.
- The Prime Number Theorem [05/26/2008]
Let pi(x) be the number of primes below x. In a book I read, two
formulas are given with identical right sides but the two left sides
are pi(x) and pi(x) - pi(sqrt(x)) + 1. How can those two expressions
be the same so that both formulas are true?
- Prime Proofs [10/08/2002]
If a^(n) - 1 is prime, show that a=2 and that n is a prime. If a^(n) +
1 is a prime, show that a is even and that n is a power of 2.
- Primes and Squares [05/03/2001]
For what values of prime number p is (2^(p-1)-1)/p a perfect square?
- Primes Containing but Not Ending in 123456789 [02/26/2003]
Are there infinitely many primes that contain but do not end in the
block of digits 123456789 ?
- Primes of the Form 4n+3 [11/07/1999]
Prove that there are infinitely many primes of the form 4n+3 where n is
an element of the natural numbers.
- Primes: p+1 a Multiple of 6? [10/06/2002]
Prove that if p and p+2 are both prime, then p+1 is divisible by 6.
Completely stuck on what to do.
- Primitive Elements vs. Generators [05/24/2002]
Prove that x is a primitive element modulo 97 where x is not congruent
to 0 if and only if x^32 and x^48 are not congruent to 1 (mod 97).
- Primitive Pythagorean Triple Congruences [04/17/2003]
If x,y,z are primitive Pythagorean triples, prove that x+y and x-y
are congruent modulo 8 to either 1 or 7.
- Primitive Roots of Primes [06/05/2005]
I define the Primitive Roots Index (PRI) of a prime p as the [sum of
all its p.r.ís] mod p. A surprising property of PRI which I stumbled
upon is its value is always 0, + 1, - 1 for all primes. Is it possible
to prove this property for all primes? Is it possible to derive the
PRI as a function of the value of p?
- Primitive Triples [04/24/2003]
In a primitive Pythagorean triple (x, y, z), why must x+y and x-y be
congruent to either 1 or 7 mod 8 ?
- Primorials [10/15/2003]
We know that p_1 * p_2 * ... * p_n + 1 is either prime or divisible by
a prime not included in the list. But is the second condition
necessary? Is the result ever not prime?
- Probability of a Sum [08/16/2002]
If the integers m and n are chosen at random between 1 and 100, what
is the probability that a number of the form 7^m + 7^n is divisible
- Problem Posed by Fermat [05/04/2001]
Find a right triangle such that the hypotenuse is a square and the sum of
the two perpendiculars, or indeed of all three sides, is also a square...
- 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?
- Proof by Induction [05/24/2002]
Prove by induction that (n^7 - n) is divisible by 42.
- Proof: Infinitely Many Primes [6/24/1996]
I need a proof that there are an infinite number of primes other than
Euclid's proof by contradiction. What is the Dirichlet proof?
- Proof Involving Legendre Symbol [02/03/2003]
If p, q are both prime odd numbers such that they are not factors of
a, and p=q(mod 4a), prove that (a/p)=(a/q).
- 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 Irreducibility in Z_p[x] [11/03/2006]
Let f be a primitive polynomial in Z_[x]. For any prime p, let f_p be
the image of f under the map Z[x]--->Z_p[x]. Then f is irreducible iff
f_p is irreducible in Z_p[x] for some prime p.
- Proof of Lagrange's Theorem [11/23/2000]
I am looking for a proof of Lagrange's Theorem, which states that any
positive integer can be expressed as the sum of 4 square numbers.
- Proof of No Integer Solutions for a^3 + b^3 = c^3 [02/08/2004]
In the equation a^3 + b^3 = c^3, how is it possible to prove that
there are no integers that satisfy the equation?
- Proof of the Compositeness Theorem [04/10/2005]
I have determined that there are no prime numbers in the interval [n!
+ 2, n! + n], but I am trying to make sense of why. Is there a
theorem that expalins why this works?
- Proof that 1 + 1 = 2 [06/10/1999]
Can you prove that 1 + 1 = 2?
- Proof That Equation Has No Integer Roots [05/09/2000]
How can I prove that if p is a prime number, then the equation x^5 - px^4
+ (p^2-p)x^3 + px^2 - (p^3+p^2)x - p^2 = 0 has no integer roots?
- Proof That Product is Irrational [03/28/2001]
How can I prove that the product of a non-zero rational number and an
irrational number is irrational without using specific examples?