Book:David Wells/Curious and Interesting Numbers/Second Edition

Contents

 * Introduction
 * Acknowledgements
 * A List of Mathematicians in Chronological Sequence
 * Glossary
 * Bibliography


 * The Dictionary


 * Tables
 * The First $100$ Triangular Numbers, Squares and Cubes
 * The First $20$ Pentagonal, Hexagonal, Heptagonal and Octagonal Numbers
 * The First $40$ Fibonacci Numbers
 * The Prime Numbers less than $1000$
 * The Factorials of the Numbers $1$ to $20$
 * The Decimal Reciprocals of the Primes from $7$ to $97$
 * The Factors of the Repunits from $11$ to $R_{40}$
 * The Factors, where Composite, and the Values of the Functions $\phi(n)$, $d(n)$ and $\sigma(n)$


 * Index

Continued Square Root of 1, 2, 3, 4, ...
$3$:

Pythagorean Triangle with Sides in Arithmetic Progression
$5$:

Fibonacci Number as Sum of Binomial Coefficients
$5$:

No 4 Fibonacci Numbers can be in Arithmetic Progression
$5$:

Number of Fibonacci Numbers with Same Number of Decimal Digits
$5$:

Perfect Number is Sum of Successive Odd Cubes except 6
$6$:

Divisibility of Elements of Pythagorean Triple by 7
$7$:

Historical Note on the St. Ives Problem
$7$:

Definition of Deltahedron
$8$:

Relation between Squares of Fibonacci Numbers and Squares of Lucas Numbers
$11$:

Solutions of Ramanujan-Nagell Equation
$15$:

Product of Two Triangular Numbers to make Square
$15$:

Integers with Prime Values of Sigma Function
$16$:

Smallest Odd Number not of form $2 a^2 + p$
$17$:

Stronger Feit-Thompson Conjecture
$17$:

Only Number Twice Sum of Digits is 18
$18$:

Semiperfect Number
$20$:

Smallest Integer not Sum of Two Ulam Numbers
$23$:

Apothecaries' Ounce
$24$:

24 is Smallest Composite Number the Product of whose Proper Divisors is Cube
$24$:

Sociable Chain: $12,496$
$28$:

Historical Note on Definition:Perfect Number: Mistake 1
$28$:

Historical Note on Definition:Perfect Number: Mistake 2
$28$:

Sequence of Prime Primorial minus 1
$29$:

Greatest Integer such that all Coprime and Less are Prime
$30$:

Smallest Positive Integer not of form +-4 mod 9 not representable as Sum of Three Cubes
$30$:

Giuga Number
$30$:

Smallest Set of Weights for Two-Pan Balance
$31$:

Integer as Sum of 5 Non-Zero Squares
$33$:

Triplets of Products of Two Distinct Primes
$33$:

Prime Factors of 35, 36, 4734 and 4735
$35$:

Element of Pascal's Triangle is Sum of Diagonal or Column starting above it going Upwards
$35$:

Hilbert-Waring Theorem/Particular Cases/5
$37$:

Euler Lucky Number/Examples/41
$41$:

Non-Palindromes in Base 2 by Reverse-and-Add Process
$43$:

Subfactorial/Examples/5
$44$:

Definition:Kaprekar Triple/Sequence
$45$:

46/Historical Note
$46$:

Prime between n and 9 n divided by 8
$48$:

Hilbert-Waring Theorem/Particular Cases/4
$53$:

Definition:Highly Composite Number
$60$:

Kaprekar's Process for 2-Digit Numbers
$63$:

Existence of Number to Power of Prime Minus 1 less 1 divisible by Prime Squared
$64$:

Numbers equal to Sum of Primes not Greater than its Prime Counting Function Value
$100$:

Integers such that Difference with Power of 2 is always Prime
$105$:

Largest Integer whose Smaller Odd Coprimes are Prime
$105$:

Integers whose Sigma equals Half Phi times Tau
$105$:

Reciprocals of Odd Numbers adding to 1
$105$:

$\tau$ Function of $108$
$108$:

Triperfect Number
$120$:

Multiply Perfect Number of Order 8
$120$:

Numbers whose Difference equals Difference between Cube and Seventh Power
$125$:

Triangles with Integer Area and Integer Sides in Arithmetical Progression
$126$:

Fibonacci Numbers with no Primitive Prime Factors
$144$:

Prime Magic Square/Examples/Order 12/Smallest with Consecutive Primes from $3$
$144$:

Sequence of Square Centered Hexagonal Numbers
$169$:

169 as Sum of up to 155 Squares
$169$:

3-Digit Numbers forming Longest Reverse-and-Add Sequence
$187$:

Numbers such that Tau divides Phi divides Sigma
$210$:

Multiplicative Magic Square/Examples/Order 3/Smallest/Historical Note
$216$:

Plato's Geometrical Number
$216$:

Amicable Pairs with Common Factor 3
$220$:

Solution of Ljunggren Equation
$239$:

Solutions of Diophantine Equation $x^4 + y^4 = z^2 + 1$ for $x = 239$
$239$: