some number theory - the rockdale …drcgarner.macmate.me/main/presentations_files/...some number...
TRANSCRIPT
![Page 1: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/1.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Some Number Theory
Chuck Garner, Ph.D.
Department of MathematicsRockdale Magnet School for Science and Technology
May 25, 2009 / Georgia ARML Practice
![Page 2: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/2.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Outline
1 Divisibility and Factoring
2 Modulo Tricks
3 Linear Diophantine Equations
4 Suggested Resources
![Page 3: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/3.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Outline
1 Divisibility and Factoring
2 Modulo Tricks
3 Linear Diophantine Equations
4 Suggested Resources
![Page 4: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/4.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Warm-Up Problem
ProblemFind all positive n such that n2 − 19n + 99 is a perfectsquare.
![Page 5: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/5.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Warm-Up Problem
Solution.Let n2 − 19n + 99 = k2 for some integer k. Solven2 − 19n + 99− k2 = 0 using the quadratic formula to getn = 1
2
(19±
√192 − 4(99− k2)
). We want n to be an
integer so the discriminant must be an integer. Thus,192 − 4(99− k2) = j2 for some integer j. Expanding, wehave 4k2 − 35 = j2, or 4k2 − j2 = 35. Hence,(2k− j)(2k + j) = 35. So 2k− j and 2k + j must beintegers. One case is 2k− j = 1 and 2k + j = 35, givingj = 17, so j2 = 289. The other case is 2k− j = 5 and2k + j = 7, giving j = 1, so j2 = 1. Hence, k2 = 81 ork2 = 9 which implies n = 1, 9, 10, 18.
![Page 6: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/6.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Fundamental Theorem of Arithmetic
Any positive integer n can be represented in exactly oneway as the product of prime numbers, so that thefactorizations of p and q are identical if and only if p = q.
On a related note, if some integer f divides integers p andq, then f divides mp + nq, where m and n are anyintegers.
![Page 7: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/7.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Fundamental Theorem of Arithmetic
Any positive integer n can be represented in exactly oneway as the product of prime numbers, so that thefactorizations of p and q are identical if and only if p = q.
On a related note, if some integer f divides integers p andq, then f divides mp + nq, where m and n are anyintegers.
![Page 8: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/8.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Another problem
ProblemHow many times does 3 divide 28!?
Solution.We reason that the answer is the sum of how many times3 divides each of 1, 2, . . . , 28. Of the numbers 1 through28, exactly b28
3 c are multiples of 3, b2832 c are multiples of
32, etc. To count the total number of 3’s appearing intheir factorizations, we compute9 + 3 + 1 + 0 + 0 + 0 + · · · = 13.
![Page 9: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/9.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Another problem
ProblemHow many times does 3 divide 28!?
Solution.We reason that the answer is the sum of how many times3 divides each of 1, 2, . . . , 28. Of the numbers 1 through28, exactly b28
3 c are multiples of 3, b2832 c are multiples of
32, etc. To count the total number of 3’s appearing intheir factorizations, we compute9 + 3 + 1 + 0 + 0 + 0 + · · · = 13.
![Page 10: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/10.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
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A Generalization
Theorem
A prime number p divides n! exactly∞∑
i=1
⌊npi
⌋times.
![Page 11: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/11.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Yet Another Problem
ProblemHow many factors does 120 have?
Solution.Since 120 = 23 · 31 · 51, we consider the three sets{20, 21, 22, 23}, {30, 31}, {50, 51}. Any number formed bypicking exactly one element from each of these 3 sets andmultiplying them will be a divisor 120. Hence, there are4 · 2 · 2 = 16 positive integers that divide 120.
![Page 12: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/12.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Yet Another Problem
ProblemHow many factors does 120 have?
Solution.Since 120 = 23 · 31 · 51, we consider the three sets{20, 21, 22, 23}, {30, 31}, {50, 51}. Any number formed bypicking exactly one element from each of these 3 sets andmultiplying them will be a divisor 120. Hence, there are4 · 2 · 2 = 16 positive integers that divide 120.
![Page 13: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/13.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Theorem of Factors
Theoremn = pn1
1 pn22 · · ·pnk
k has (n1 + 1)(n1 + 2) · · · (nk + 1) factors.
![Page 14: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/14.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Common Definitions
The greatest common divisor of m and n is defined to bethe largest integer that divides both m and n. Twonumbers whose largest common divisor is 1 are calledrelatively prime even though neither m nor n isnecessarily prime.
![Page 15: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/15.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Euclidean Algorithm
Theorem (Euclidean algorithm version 1)
Let n > m. If m divides n, then gcd(m, n) = m. Otherwise,gcd(n, m) = gcd(m, n−m · b n
mc).
Theorem (Euclidean algorithm version 2)
For any positive integers m and n, there exists integers qand r such that 0 ≤ r < n and m = nq + r.
![Page 16: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/16.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Euclidean Algorithm
Theorem (Euclidean algorithm version 1)
Let n > m. If m divides n, then gcd(m, n) = m. Otherwise,gcd(n, m) = gcd(m, n−m · b n
mc).
Theorem (Euclidean algorithm version 2)
For any positive integers m and n, there exists integers qand r such that 0 ≤ r < n and m = nq + r.
![Page 17: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/17.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Finding the GCD
ProblemFind gcd(4897, 1357).
Solution.We use the Euclidean algorithm.
gcd(4897, 1357) = gcd(1357, 4897− 3 · 1357)= gcd(1357, 826)= gcd(826, 1357− 1 · 826) = gcd(826, 531)= gcd(531, 826− 1 · 531) = gcd(531, 295)= gcd(295, 531− 1 · 295) = gcd(295, 236)= gcd(236, 295− 1 · 236) = gcd(236, 59)
and since 59 divides 236, we havegcd(4897, 1357) = 59.
![Page 18: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/18.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Finding the GCD
ProblemFind gcd(4897, 1357).
Solution.We use the Euclidean algorithm.
gcd(4897, 1357) = gcd(1357, 4897− 3 · 1357)= gcd(1357, 826)= gcd(826, 1357− 1 · 826) = gcd(826, 531)= gcd(531, 826− 1 · 531) = gcd(531, 295)= gcd(295, 531− 1 · 295) = gcd(295, 236)= gcd(236, 295− 1 · 236) = gcd(236, 59)
and since 59 divides 236, we havegcd(4897, 1357) = 59.
![Page 19: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/19.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Another Definition
The most useful definition of the least common multipleis
lcm (m, n) =mn
gcd(m, n).
![Page 20: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/20.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Euler’s phi-function
The Euler phi-function ϕ(n), denotes the number ofpositive integers less than or equal to n that arerelatively prime to n.
ϕ(n) = n(
p1 − 1p1
) (p2 − 1
p2
)· · ·
(pk − 1
pk
).
![Page 21: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/21.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Outline
1 Divisibility and Factoring
2 Modulo Tricks
3 Linear Diophantine Equations
4 Suggested Resources
![Page 22: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/22.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Modulo Properties
Theoremkn + c ≡ c mod n for any integers k, n, and c.
Theorem(kn + c)m ≡ cm mod n for any integers k, n, and c, andpositive integer m.
Theorem (Fermat’s Little Theorem)ap−1 ≡ 1 mod p for relatively prime integers a and p,where p is prime.
Theorem (Euler’s Theorem)aϕ(n) ≡ 1 mod n for relatively prime integers a and n.
Theorem (Wilson’s Theorem)(p− 1)! ≡ −1 mod p, where p is prime.
![Page 23: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/23.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Modulo Properties
Theoremkn + c ≡ c mod n for any integers k, n, and c.
Theorem(kn + c)m ≡ cm mod n for any integers k, n, and c, andpositive integer m.
Theorem (Fermat’s Little Theorem)ap−1 ≡ 1 mod p for relatively prime integers a and p,where p is prime.
Theorem (Euler’s Theorem)aϕ(n) ≡ 1 mod n for relatively prime integers a and n.
Theorem (Wilson’s Theorem)(p− 1)! ≡ −1 mod p, where p is prime.
![Page 24: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/24.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Modulo Properties
Theoremkn + c ≡ c mod n for any integers k, n, and c.
Theorem(kn + c)m ≡ cm mod n for any integers k, n, and c, andpositive integer m.
Theorem (Fermat’s Little Theorem)ap−1 ≡ 1 mod p for relatively prime integers a and p,where p is prime.
Theorem (Euler’s Theorem)aϕ(n) ≡ 1 mod n for relatively prime integers a and n.
Theorem (Wilson’s Theorem)(p− 1)! ≡ −1 mod p, where p is prime.
![Page 25: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/25.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Modulo Properties
Theoremkn + c ≡ c mod n for any integers k, n, and c.
Theorem(kn + c)m ≡ cm mod n for any integers k, n, and c, andpositive integer m.
Theorem (Fermat’s Little Theorem)ap−1 ≡ 1 mod p for relatively prime integers a and p,where p is prime.
Theorem (Euler’s Theorem)aϕ(n) ≡ 1 mod n for relatively prime integers a and n.
Theorem (Wilson’s Theorem)(p− 1)! ≡ −1 mod p, where p is prime.
![Page 26: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/26.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Modulo Properties
Theoremkn + c ≡ c mod n for any integers k, n, and c.
Theorem(kn + c)m ≡ cm mod n for any integers k, n, and c, andpositive integer m.
Theorem (Fermat’s Little Theorem)ap−1 ≡ 1 mod p for relatively prime integers a and p,where p is prime.
Theorem (Euler’s Theorem)aϕ(n) ≡ 1 mod n for relatively prime integers a and n.
Theorem (Wilson’s Theorem)(p− 1)! ≡ −1 mod p, where p is prime.
![Page 27: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/27.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Modulo Arithmetic
1 The only numbers that can be divided by m inmodulo n are those that are multiples of gcd(m, n),each of which leaves gcd(m, n) different residues.
2 When multiplying by m in modulo n, the onlynumbers that can result are multiples of gcd(m, n).There are gcd(m, n) distinct residues that all lead tothe same number when multiplied by m.
3 Taking the square root of both sides is “normal” onlyin prime modulos.
4 When solving for integer solutions in modulo n, anyinteger multiple of n can be added to or subtractedfrom any number.
5 All other operations behave normally according tothe standard rules of algebra over the integers.
![Page 28: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/28.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Modulo Arithmetic
1 The only numbers that can be divided by m inmodulo n are those that are multiples of gcd(m, n),each of which leaves gcd(m, n) different residues.
2 When multiplying by m in modulo n, the onlynumbers that can result are multiples of gcd(m, n).There are gcd(m, n) distinct residues that all lead tothe same number when multiplied by m.
3 Taking the square root of both sides is “normal” onlyin prime modulos.
4 When solving for integer solutions in modulo n, anyinteger multiple of n can be added to or subtractedfrom any number.
5 All other operations behave normally according tothe standard rules of algebra over the integers.
![Page 29: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/29.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Modulo Arithmetic
1 The only numbers that can be divided by m inmodulo n are those that are multiples of gcd(m, n),each of which leaves gcd(m, n) different residues.
2 When multiplying by m in modulo n, the onlynumbers that can result are multiples of gcd(m, n).There are gcd(m, n) distinct residues that all lead tothe same number when multiplied by m.
3 Taking the square root of both sides is “normal” onlyin prime modulos.
4 When solving for integer solutions in modulo n, anyinteger multiple of n can be added to or subtractedfrom any number.
5 All other operations behave normally according tothe standard rules of algebra over the integers.
![Page 30: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/30.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Modulo Arithmetic
1 The only numbers that can be divided by m inmodulo n are those that are multiples of gcd(m, n),each of which leaves gcd(m, n) different residues.
2 When multiplying by m in modulo n, the onlynumbers that can result are multiples of gcd(m, n).There are gcd(m, n) distinct residues that all lead tothe same number when multiplied by m.
3 Taking the square root of both sides is “normal” onlyin prime modulos.
4 When solving for integer solutions in modulo n, anyinteger multiple of n can be added to or subtractedfrom any number.
5 All other operations behave normally according tothe standard rules of algebra over the integers.
![Page 31: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/31.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Modulo Arithmetic
1 The only numbers that can be divided by m inmodulo n are those that are multiples of gcd(m, n),each of which leaves gcd(m, n) different residues.
2 When multiplying by m in modulo n, the onlynumbers that can result are multiples of gcd(m, n).There are gcd(m, n) distinct residues that all lead tothe same number when multiplied by m.
3 Taking the square root of both sides is “normal” onlyin prime modulos.
4 When solving for integer solutions in modulo n, anyinteger multiple of n can be added to or subtractedfrom any number.
5 All other operations behave normally according tothe standard rules of algebra over the integers.
![Page 32: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/32.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Another Problem!
ProblemFind all positive integers n less than 100 such thatn2 + n + 31 is divisible by 43.
Solution.Of course the problem is asking us to solven2 + n + 31 ≡ 0 mod 43. Using the quadratic formula,we find that n ≡ 1
2(−1±
√−123
)mod 43. However,
because −123 ≡ −123 + 43k mod 43 for any integer k,we can replace −123 with −123 + 43 · 5 = 49 to obtainn ≡ 1
2 (−1± 7) mod 43. Thus, n ≡ 3,−4 mod 43.Adding 43 and 86 to each of these gives all solutions: 3,39, 46, 82, and 89.
![Page 33: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/33.jpg)
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Another Problem!
ProblemFind all positive integers n less than 100 such thatn2 + n + 31 is divisible by 43.
Solution.Of course the problem is asking us to solven2 + n + 31 ≡ 0 mod 43. Using the quadratic formula,we find that n ≡ 1
2(−1±
√−123
)mod 43. However,
because −123 ≡ −123 + 43k mod 43 for any integer k,we can replace −123 with −123 + 43 · 5 = 49 to obtainn ≡ 1
2 (−1± 7) mod 43. Thus, n ≡ 3,−4 mod 43.Adding 43 and 86 to each of these gives all solutions: 3,39, 46, 82, and 89.
![Page 34: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/34.jpg)
SomeNumberTheory
Garner
DivisibilityandFactoring
Modulo Tricks
LinearDiophantineEquations
SuggestedResources
Outline
1 Divisibility and Factoring
2 Modulo Tricks
3 Linear Diophantine Equations
4 Suggested Resources
![Page 35: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/35.jpg)
SomeNumberTheory
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DivisibilityandFactoring
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A Theorem
TheoremThe equation ax + by = c, where a, b, and c are integers,has an integer solution if and only if gcd(a, b) divides c.Moreover, if (x0, y0) is one such solution, then the othersare given by x = x0 − bt and y = y0 + at for every integer t.
![Page 36: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/36.jpg)
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DivisibilityandFactoring
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Oh Joy! Another Problem!
ProblemCharacterize the solutions to 7x + 3y = 8. How manypositive integer solutions are there?
Solution.Since gcd(3, 7) = 1 divides 8, there are solutions. Fromthe Euclidean algorithm, we have 7 = 3 · 2 + 1, or1 = 7 + 3(−2). Multiplying by 8, we have8 = 7 · 8 + 3(−16) so that (8,−16) is a solution. Thus allsolutions are (8− 3t,−16 + 7t) for every integer t.For positive integer solutions, we must have both8− 3t > 0 and −16 + 7t > 0. But this implies t < 8
3 andt > 16
7 , which no integer t satisfies. Hence, there are nopositive integer solutions.
![Page 37: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/37.jpg)
SomeNumberTheory
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DivisibilityandFactoring
Modulo Tricks
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Oh Joy! Another Problem!
ProblemCharacterize the solutions to 7x + 3y = 8. How manypositive integer solutions are there?
Solution.Since gcd(3, 7) = 1 divides 8, there are solutions. Fromthe Euclidean algorithm, we have 7 = 3 · 2 + 1, or1 = 7 + 3(−2). Multiplying by 8, we have8 = 7 · 8 + 3(−16) so that (8,−16) is a solution. Thus allsolutions are (8− 3t,−16 + 7t) for every integer t.For positive integer solutions, we must have both8− 3t > 0 and −16 + 7t > 0. But this implies t < 8
3 andt > 16
7 , which no integer t satisfies. Hence, there are nopositive integer solutions.
![Page 38: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/38.jpg)
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Two Problems in a Row!
ProblemLet n be a positive integer. Suppose there are 2016ordered triples (x, y, z) of positive integers satisfying theequation x + 8y + 8z = n. Find the maximum value of n.
![Page 39: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/39.jpg)
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Two Problems in a Row!
Solution.Write n = 8a + b where a and b are integers with0 ≤ a, b < 8. Since x ≡ n ≡ b mod 8, the possible valuesof x are b, b + 8, . . . , b + 8(a− 1). Let x = b + 8i where0 ≤ i < a− 1. Then 8(y + z) = 8(a− i), or y + z = a− i.This gives a− i− 1 ordered pairs (y, z) of positive integersolutions: (1, a− i− 1), . . . , (a− i− 1, 1). Hence, there are
a−1∑i=0
(a− i− 1) =a−1∑i=0
i =a(a− 1)
2
ordered triples satisfying the conditions of the problem.Solving a(a− 1)/2 = 2016 we have a = 64. Thus, themaximum value of n is obtained by setting b = 7. Thisgives 64 · 8 + 7 = 519.
![Page 40: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/40.jpg)
SomeNumberTheory
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DivisibilityandFactoring
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LinearDiophantineEquations
SuggestedResources
Outline
1 Divisibility and Factoring
2 Modulo Tricks
3 Linear Diophantine Equations
4 Suggested Resources
![Page 41: Some Number Theory - The ROCKDALE …drcgarner.macmate.me/Main/Presentations_files/...Some Number Theory Chuck Garner, Ph.D. Department of Mathematics Rockdale Magnet School for Science](https://reader033.vdocuments.site/reader033/viewer/2022052712/5ae40e897f8b9a5b348e3453/html5/thumbnails/41.jpg)
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DivisibilityandFactoring
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Suggested Resources
104 Number Theory Problems,Andreescu, Andrica, Feng;Birkhäuser 2007.
Number Theory Through Inquiry,Marshall, Odell, Starbird;Mathematical Association of America 2007.