Just thought I'd post a list of numbers to show how important they are. LOL

0 is the additive identity.

1 is the multiplicative identity.

2 is the only even prime.

3 is the number of spatial dimensions we live in.

4 is the smallest number of colours sufficient to colour all planar maps.

5 is the number of Platonic solids.

6 is the smallest perfect number.

7 is the smallest number of sides of a regular polygon that is not constructible by straight-edge and compass.

8 is the largest cube in the Fibonacci sequence.

9 is the maximum number of cubes that are needed to sum to any positive integer.

10 is the base of our number system.

11 is the largest known multiplicative persistence.

12 is the smallest abundant number.

13 is the number of Archimedian solids.

14 is the smallest even number n with no solutions to φ(m) = n.

15 is the smallest composite number n with the property that there is only one group of order n.

16 is the only number of the form xy = yx with x and y being different integers.

17 is the number of wallpaper groups.

18 is the only positive number that is twice the sum of its digits.

19 is the maximum number of 4th powers needed to sum to any number.

20 is the number of rooted trees with 6 vertices.

21 is the smallest number of distinct squares needed to tile a square.

22 is the number of partitions of 8.

23 is the smallest number of integer-sided boxes that tile a box so that no two boxes share a common length.

24 is the largest number divisible by all numbers less than its square root.

25 is the smallest square that can be written as a sum of 2 squares.

26 is the only positive number to be directly between a square and a cube.

27 is the largest number that is the sum of the digits of its cube.

28 is the 2nd perfect number.

29 is the 7th Lucas number.

30 is the largest number with the property that all smaller numbers relatively prime to it are prime.

31 is a Mersenne prime.

32 is the smallest non-trivial 5th power.

33 is the largest number that is not a sum of distinct triangular numbers.

34 is the smallest number with the property that it and its neighbours have the same number of divisors.

35 is the number of hexominoes.

36 is the smallest non-trivial number which is both square and triangular.

37 is the maximum number of 5th powers needed to sum to any number.

38 is the last Roman numeral when written lexicographically.

39 is the smallest number which has 3 different partitions into 3 parts with the same product.

40 is the only number whose letters are in alphabetical order.

41 is a value of n so that x2 + x + n takes on prime values for x = 0, 1, 2, ... n-2.

42 is the 5th Catalan number.

43 is the number of sided 7-iamonds.

44 is the number of derangements of 5 items.

45 is a Kaprekar number.

46 is the number of different arrangements (up to rotation and reflection) of 9 non-attacking queens on a 9×9 chessboard.

47 is the largest number of cubes that cannot tile a cube.

48 is the smallest number with 10 divisors.

49 is the smallest number with the property that it and its neighbours are squareful.

50 is the smallest number that can be written as the sum of of 2 squares in 2 ways.

51 is the 6th Motzkin number.

52 is the 5th Bell number.

53 is the only two digit number that is reversed in hexadecimal.

54 is the smallest number that can be written as the sum of 3 squares in 3 ways.

55 is the largest triangular number in the Fibonacci sequence.

56 is the number of reduced 5×5 Latin squares.

57 = 111 in base 7.

58 is the number of commutative semi-groups of order 4.

59 is the number of stellations of an icosahedron.

60 is the smallest number divisible by 1 through 6.

61 is the 3rd secant number.

62 is the smallest number that can be written as the sum of of 3 distinct squares in 2 ways.

63 is the number of partially ordered sets of 5 elements.

64 is the smallest number with 7 divisors.

65 is the smallest number that becomes square if its reverse is either added to or subtracted from it.

66 is the number of 8-iamonds.

67 is the smallest number which is palindromic in bases 5 and 6.

68 is the 2-digit string that appears latest in the decimal expansion of π.

69 is a value of n where n2 and n3 together contain each digit once.

70 is the smallest weird number.

71 divides the sum of the primes less than it.

72 is the maximum number of spheres that can touch another sphere in a lattice packing in 6 dimensions.

73 is the smallest multi-digit number which is one less than twice its reverse.

74 is the number of different non-Hamiltonian polyhedra with a minimum number of vertices.

75 is the number of orderings of 4 objects with ties allowed.

76 is an automorphic number.

77 is the largest number that cannot be written as a sum of distinct numbers whose reciprocals sum to 1.

78 is the smallest number that can be written as the sum of of 4 distinct squares in 3 ways.

79 is a per-mutable prime.

80 is the smallest number n where n and n+1 are both products of 4 or more primes.

81 is the square of the sum of its digits.

82 is the number of 6-hexes.

83 is the number of strongly connected digraphs with 4 vertices.

84 is the largest order of a permutation of 14 elements.

85 is the largest n for which 12+22+32+ ... +n2 = 1+2+3+ ... +m has a solution.

86 = 222 in base 6.

87 is the sum of the squares of the first 4 primes.

88 is one of only 2 numbers known whose square has no isolated digits.

89 = 81 + 92

90 is the number of degrees in a right angle.

91 is the smallest pseudoprime in base 3.

92 is the number of different arrangements of 8 non-attacking queens on an 8×8 chessboard.

93 = 333 in base 5.

94 is a Smith number.

95 is the number of planar partitions of 10.

96 is the smallest number that can be written as the difference of 2 squares in 4 ways.

97 is the smallest number with the property that its first 3 multiples contain the digit 9.

98 is the smallest number with the property that its first 5 multiples contain the digit 9.

99 is a Kaprekar number.

100 is the smallest square which is also the sum of 4 consecutive cubes.

101 is the number of partitions of 13.

102 is the smallest number with three different digits.

103 has the property that placing the last digit first gives 1 more than triple it.

104 is the smallest known number of unit line segments that can exist in the plane, 4 touching at every vertex.

105 is the largest number n known with the property that n - 2k is prime for k>1.

106 is the number of trees with 10 vertices.

107 is the exponent of a Mersenne prime.

108 is 3 hyper-factorial.

109 has a 5th root that starts 2.555555....

110 is the smallest number that is the product of two different substrings.

111 is the smallest possible magic constant of a 3×3 magic square of distinct primes.

112 is the side of the smallest square that can be tiled with distinct integer-sided squares.

113 is a per-mutable prime.

114 = 222 in base 7.

115 is the number of rooted trees with 8 vertices.

116 is a value of n for which n! + 1 is prime.

117 is the smallest possible value of the longest edge in a Heronian Tetrahedron.

118 is the smallest number that has 4 different partitions into 3 parts with the same product.

119 is the smallest number n where either n or n+1 is divisible by the numbers from 1 to 8.

120 is the smallest number to appear 6 times in Pascal's triangle.

121 is the only square of the form 1 + n + n2 + n3 + n4.

122 is the smallest number n>1 so that n concatenated with n-1 0's concatenated with the reverse of n is prime.

123 is the 10th Lucas number.

124 is the smallest number with the property that its first 3 multiples contain the digit 2.

125 is the only number known that contains all its proper divisors as proper substrings.

126 = 9C4.

127 is a Mersenne prime.

128 is the largest number which is not the sum of distinct squares.

129 is the smallest number that can be written as the sum of 3 squares in 4 ways.

130 is the number of functions from 6 unlabeled points to themselves.

131 is a permutable prime.

132 is the smallest number which is the sum of all of the 2-digit numbers that can be formed with its digits.

133 is the smallest number n for which the sum of the proper divisors of n divides φ(n).

134 = 8C1 + 8C3 + 8C4.

135 = 11 + 32 + 53.

136 is the sum of the cubes of the digits of the sum of the cubes of its digits.

137 is the smallest prime with 3 distinct digits that remains prime if one of its digits is removed.

138 is a value of n for which n!!! - 1 is prime.

139 is the number of unlabeled topologies with 5 elements.

140 is a harmonic divisor number.

141 is the 6th central trinomial coefficient.

142 is the number of planar graphs with 6 vertices.

143 is the smallest quasi-Carmichael number in base 8.

144 is the largest square in the Fibonacci sequence.

145 is a factorion.

146 = 222 in base 8.

147 is the number of sided 6-hexes.

148 is the number of perfect graphs with 6 vertices.

149 is the smallest number whose square begins with three 2's.

150 = 100101102 = 21124 = 11005, each using 2 different digits an equal number of times.

151 is a palindromic prime.

152 has a square composed of the digits 0-4.

153 is a narcissistic number.

154 is the smallest number which is palindromic in bases 6, 8, and 9.

155 is the sum of the primes between its smallest and largest prime factor.

156 is the number of graphs with 6 vertices.

157 is the smallest number with φ(2n+1) < φ(2n).

158 is the number of planar partitions of 11.

159 is the number of isomers of C11H24.

160 is the number of 9-iamonds.

161 is a Cullen number.

162 is the smallest number that can be written as the sum of of 4 positive squares in 9 ways.

163 is the largest Heegner Number.

164 is the smallest number which is the concatenation of squares in two different ways.

165 is the midpoint of the nth larger prime and nth smaller prime, for 1 ≤ n ≤ 6.

166 is the number of monotone Boolean functions of 4 variables.

167 is the smallest number whose 4th power begins with 4 identical digits

168 is the size of the smallest non-cyclic simple group which is not an alternating group.

169 is the 7th Pell number.

170 is the smallest number n for which φ(n) and σ(n) are both square.

171 has the same number of digits in Roman numerals as its cube.

172 = 444 in base 6.

173 has a square containing only 2 digits.

174 is the smallest number that can be written as the sum of of 4 positive distinct squares in 6 ways.

175 = 11 + 72 + 53.

176 is an octagonal pentagonal number.

177 is the number of graphs with 7 edges.

178 has a cube with the same digits as another cube.

179 has a square comprised of the digits 0-4.

180 is the total number of degrees in a triangle.

181 is a strobogrammatic prime.

182 is the number of connected bipartite graphs with 8 vertices.

183 is the smallest number n so that n concatenated with n+1 is square.

184 is a Kaprekar constant in base 3.

185 is the number of conjugacy classes in the automorphism group of the 8 dimensional hypercube.

186 is the number of degree 11 irreducible polynomials over GF(2).

187 is the smallest quasi-Carmichael number in base 7.

188 is the number of semigroups of order 4.

189 is a Kaprekar constant in base 2.

190 is the largest number with the property that it and its ditinct prime factors are palindromic in Roman numerals.

191 is a number n for which n, n+2, n+6, and n+8 are all prime.

192 is the smallest number with 14 divisors.

193 is the largest number that can be written as ab + ac + bc with 0 < a < b < c in a unique way.

194 is the smallest number that can be written as the sum of 3 squares in 5 ways.

195 is the smallest value of n such that 2nCn is divisible by n2.

196 is the smallest number that is not known to reach a palindrome when repeatedly added to its reverse.

197 is a Keith number.

198 = 11 + 99 + 88.

199 is the 11th Lucas number.

200 is the smallest number which can not be made prime by changing one of its digits.

201 is a Kaprekar constant in base 4.

202 has a cube that contains only even digits.

203 is the 6th Bell number.

204 is the square root of a triangular number.

205 = 5 × 41 = 5416.

206 is the smallest number whose English name contains all five vowels exactly once.

207 has a 4th power where the first half of the digits are a permutation of the last half of the digits.

208 is the 10th Tetranacci number.

209 is the smallest quasi-Carmichael number in base 9.

210 is the product of the first 4 primes.

211 has a cube containing only 3 different digits.

212 has a square with 4/5 of the digits are the same.

213 is the number of perfect squared rectangles of order 13.

214 is a value of n for which n!! - 1 is prime.

215 = 555 in base 6.

216 is the smallest cube that can be written as the sum of 3 cubes.

217 is a Kaprekar constant in base 2.

218 is the number of digraphs with 4 vertices.

219 is the number of space groups, not including handedness.

220 is the smallest amicable number.

221 is the number of Hamiltonian planar graphs with 7 vertices.

222 is the number of lattices on 8 unlabeled nodes.

223 is the smallest prime p which has more primitive roots below p/2 than above p/2.

224 is the Entringer number E(6,3).

225 is an octagonal square number.

226 are the first 3 digits of π226.

227 is the number of connected planar graphs with 8 edges.

228 is the number of ways, up to rotation and reflection, of dissecting a regular 11-gon into 9 triangles.

229 is the smallest prime that remains prime when added to its reverse.

230 is the number of space groups, including handedness.

231 is the number of partitions of 16.

232 is the number of 7×7 symmetric permutation matrices.

233 is the smallest number with the property that it and its neighbors can be written as a sum of 2 squares.

234 is the number of ways to stack 12 pennies in a line so that each penny lies on the table or on two pennies.

235 is the number of trees with 11 vertices.

236 is the number of possible positions in Othello after 2 moves by both players.

237 is the smallest number with the property that its first 3 multiples contain the digit 7.

238 is the number of connected partial orders on 6 unlabeled elements.

239 is the largest number that cannot be written as a sum of 8 or fewer cubes.

240 is the smallest number with 20 divisors.

241 is the only number n for which the nth prime is π(n π(n)).

242 is the smallest n for which n, n+1, n+2, and n+3 have the same number of divisors.

243 = 35.

244 is the smallest number (besides 2) that can be written as the sum of 2 squares or the sum of two 5th powers.

245 is a stella octangula number.

246 = 9C2 + 9C4 + 9C6.

247 is the smallest possible difference between two integers that together contain each digit exactly once.

248 is the smallest number n>1 for which the arithmetic, geometric, and harmonic means of φ(n) and σ(n) are all integers.

249 is the index of a prime Woodall number.

250 is the smallest multi-digit number so that the sum of the squares of its prime factors equals the sum of the squares of its digits.

251 is the smallest number that can be written as the sum of 3 cubes in 2 ways.

252 is the 5th central binomial coefficient.

253 is the smallest non-trivial triangular star number.

254 is the smallest multi-digit composite number all of whose proper divisors contain the digit 2.

255 = 11111111 in base 2.

256 is the smallest non-trivial 8th power.

257 is a Fermat prime.

258 is a value of n so that n(n+9) is a palindrome.

259 = 1111 in base 6.

260 is the constant of an 8×8 magic square.

261 is the number of essentially different ways to dissect a 16-gon into 7 quadrilaterals.

262 is the 5th meandric number and the 9th open meandric number.

263 is the largest known prime whose square is strobogrammatic.

264 is the largest known number whose square is undulating.

265 is the number of derangements of 6 items.

266 is the Stirling number of the second kind S(8,6).

267 is the number of planar partitions of 12.

268 is the smallest number whose product of digits is 6 times the sum of its digits.

269 is the number of 6-octs.

270 is a harmonic divisor number.

271 is the smallest prime p so that p-1 and p+1 are divisible by cubes.

272 is the 4th tangent number.

273 = 333 in base 9.

274 is the Stirling number of the first kind s(6,2).

275 is the number of partitions of 28 in which no part occurs only once.

276 = 15 + 25 + 35.

277 is a Perrin number.

278 is the closest integer to 6π.

279 is the maximum number of 8th powers needed to sum to any number.

280 is the number of ways 18 people around a round table can shake hands in a non-crossing way, up to rotation.

281 is the sum of the first 14 primes.

282 is the number of planar partitions of 9.

283 = 25 + 8 + 35.

284 is an amicable number.

285 is the number of binary rooted trees with 13 vertices.

286 is the number of rooted trees with 9 vertices.

287 is the sum of consecutive primes in 3 different ways.

288 is the smallest non-palindrome non-square that when multiplied by its reverse is a square.

289 is a Friedman number.

290 has a base 3 representation that ends with its base 6 representation.

291 is the largest number that is not the sum of distinct non-trivial powers.

292 is the number of ways to make change for a dollar.

293 is the number of ways to stack 20 boxes in a line so that each box lies on the table or on a box next to 2 boxes.

294 is the number of planar 2-connected graphs with 7 vertices.

295 is a structured deltoidal hexacontahedral number.

296 is the number of partitions of 30 into distinct parts.

297 is a Kaprekar number.

298 is a value of n so that n(n+3) is a palindrome.

299 is the maximum number of regions a cube can be cut into with 12 cuts.

300 is the largest possible score in bowling.

301 is a 6-hyperperfect number.

302 is the number of ways to play the first 3 moves in Checkers.

303 is the number of bipartite graphs with 8 vertices.

304 is a primitive semiperfect number.

305 is an hexagonal prism number.

306 is the number of 5-digit triangular numbers.

307 is a non-palindrome with a palindromic square.

308 is a heptagonal pyramidal number.

309 is the smallest number whose 5th power contains every digit at least once.

310 = 1234 in base 6.

311 is a permutable prime.

312 = 2222 in base 5.

313 is the number of intersections when all the diagonals of a regular dodecagon are drawn.

314 is the smallest number that can be written as the sum of of 3 positive distinct squares in 6 ways.

315 = (4+3) × (4+1) × (4+5).

316 has a digit product which is the digit sum of (31)6.

317 is the number of binary 4×4 matrices up to permutations of rows and columns.

318 is the number of unlabeled partially ordered sets of 6 elements.

319 is the smallest number with the property that the partition with the largest product does not have a maximum number of parts.

320 is the maximum determinant of a binary 10×10 matrix.

321 is a Delannoy number.

322 is the 12th Lucas number.

323 is the smallest composite number n that divides the (n+1)st Fibonacci number.

324 is the largest possible product of positive integers with sum 16.

325 is a 3-hyperperfect number.

326 is the number of permutations of some subset of 5 elements.

327 is the largest number n so that n, 2n, and 3n together contain every digit from 1-9 exactly once.

328 concatenated with its successor is square.

329 is the number of forests with 10 vertices.

330 = 11C4.

331 is both a centered pentagonal number and a centered hexagonal number.

332 is the number of 2-connected graphs with 7 vertices

333 is the number of 7-hexes.

334 is the number of trees on 13 vertices with diameter 7.

335 is the number of degree 12 irreducible polynomials over GF(2).

336 = 8P3.

337 is the number of different resistances that can be created in a circuit of 8 equal resistors.

338 is the smallest number for which both the number of divisors and the sum of its prime factors is a perfect number.

339 is the number of ways to divide 5 black and 5 white beads into piles.

340 is a value of n for which n! + 1 is prime.

341 is the smallest pseudoprime in base 2.

342 is the number of inequivalent binary linear codes of length 8.

343 is a strong Friedman number.

344 is the smallest number that can be written as the sum of a cube and a 7th power in more than one way.

345 is half again as large as the sum of its proper divisors.

346 is a Franel number.

347 is a Friedman number.

348 is the smallest number whose 5th power contains exactly the same digits as another 5th power.

349 is a Tetranacci-like number starting from 1, 1, 1, and 1.

350 is the Stirling number of the second kind S(7,4).

351 is the smallest number so that it and the surrounding numbers are all products of 4 or more primes.

352 is the number of different arrangements of 9 non-attacking queens on an 9×9 chessboard.

353 is the smallest number whose 4th power can be written as the sum of four 4th powers.

354 is the sum of the first four 4th powers.

355 is the number of labeled topologies with 4 elements.

356 is the smallest happy number of height 6.

357 has a base 3 representation that ends with its base 7 representation.

358 has a base 3 representation that ends with its base 7 representation.

359 has a base 3 representation that ends with its base 7 representation.

360 is the number of degrees in a circle.

361 is the number of intersections on a Go board.

362 and its double and triple all use the same number of digits in Roman numerals.

363 is a perfect totient number.

364 = 14C3.

365 is the smallest number that can be written as a sum of consecutive squares in more than 1 way.

366 is the number of days in a leap year.

367 is the largest number whose square has strictly increasing digits.

368 is the number of ways to tile a 4×15 rectangle with the pentominoes.

369 is the number of octominoes.

370 is a narcissistic number.

371 is a narcissistic number.

372 is a hexagonal pyramidal number.

373 is a permutable prime.

374 is the smallest number that can be written as the sum of 3 squares in 8 ways.

375 is a truncated tetrahedral number.

376 is an automorphic number.

377 is the 14th Fibonacci number.

378 is the maximum number of regions a cube can be cut into with 13 cuts.

379 is a value of n for which one more than the product of the first n primes is prime.

380 is the number of necklaces possible with 13 beads, each being one of 2 colors.

381 is a Kaprekar constant in base 2.

382 is the smallest number n with σ(n) = σ(n+3).

383 is the number of Hamiltonian graphs with 7 vertices.

384 = 8!! = 12!!!!.

385 is the number of partitions of 18.

386 is the number of regions the complex plane is cut into by drawing lines between all pairs of 11th roots of unity.

387 is the smallest number with sort-then-add persistence of 10.

388 is the maximum value of n so that there exist 6 denominations of stamps so that every postage from 1 to n can be paid for with at most 6 stamps.

389 is the smallest prime so that it and the next 3 primes are all equal to 1 (mod 4).

390 is the number of partitions of 32 into distinct parts.

391 ???

392 is a Kaprekar constant in base 5.

393 is the 7th central trinomial coefficient.

394 is a Schröder number.

395 does not occur in its factorial in base 2.

396 is the number of 3×3 sliding puzzle positions that require exactly 11 moves to solve starting with the hole in a corner.

397 is a Cuban prime.

398 is the number of integers with complexity 22.

399 is a Lucas-Carmichael number.

400 = 1111 in base 7.

401 is the number of connected planar Eulerian graphs with 9 vertices.

402 is the number of graphs with 8 vertices and 9 edges.

403 is the product of two primes which are reverses of each other.

404 is the number of sided 10-hexes with holes.

405 is a pentagonal pyramidal number.

406 is the number of ways to tile a 3×17 rectangle with 3×1 rectangles.

407 is a narcissistic number.

408 is the 8th Pell number.

409 is the number of graphs with 8 vertices with clique number 2.

410 is the smallest number that can be written as the sum of 2 distinct prime powers in 2 ways.

411 is a member of the Fibonacci-type sequence starting with 1 and 4.

412 is the number of subsets of {1,2,3,...,11} that have a sum divisible by 5.

413 is a structured hexagonal diamond number.

414 is a value of n for which n4, n5, n6, and n7 have the same digit sum.

415 is the 10th Iccanobif number, where each term is the reverse of the sum of the previous two numbers.

416 is the number of subsets of the 15th roots of unity that add to a real number.

417 is the smallest number so that it and the next 3 numbers have different numbers of distinct prime factors.

418 has the property that the sum of its prime factors is equal to the product of its digits.

419 is the number of ways to divide a 6×6 grid of points into two sets using a straight line.

420 is the smallest number divisible by 1 through 7.

421 is the number of commutative monoids of order 6.

422 is the smallest number whose 8th power has 21 digits.

423 is a number that does not have any digits in common with its cube.

424 ???

425 is the number of subsets of {1,2,3,...,11} that have an integer average.

426 is a stella octangula number.

427 is a value of n for which n! + 1 is prime.

428 has the property that its square is the concatenation of two consecutive numbers.

429 is the 7th Catalan number.

430 is the number of necklaces possible with 6 beads, each being one of 4 colors.

431 is the index of a prime Fibonacci number.

432 = 4 × 33 × 22.

433 is the index of a prime Fibonacci number.

434 is the smallest composite value of n for which σ(n) + 2 = σ(n+2).

435 is the number of ordered partitions of 16 into distinct parts.

436 is the smallest number whose cube contains four 8's.

437 has a cube with the last 3 digits the same as the 3 digits before that.

438 = 666 in base 8.

439 is the smallest prime where inserting the same digit between every pair of digits never yields another prime.

440 is the number of permutations of 12 items that fix 9 elements.

441 is the smallest square which is the sum of 6 consecutive cubes.

442 is the number of planar partitions of 13.

443 is a value of n for which σ(n) is a repdigit.

444 is the largest known n for which there is a unique integer solution to a1+ ... +an = (a1)...(an).

445 has a base 10 representation which is the reverse of its base 9 representation.

446 is the smallest number that can be written as the sum of 3 distinct squares in 8 ways.

447 is the smallest number of convex quadrilaterals formed by 15 points in general position.

448 is the number of 10-iamonds.

449 has a base 3 representation that begins with its base 7 representation.

450 is the number of 13-iamonds with holes.

451 is the smallest number whose reciprocal has period 10.

452 is the closest integer to 7π.

453 is the only number n so that n, 2n, and 6n together contain every digit exactly once.

454 is the largest number known that cannot be written as a sum of 7 or fewer cubes.

455 = 15C3.

456 is the number of tournaments with 7 vertices.

457 is the index of a prime Euclid number.

458 is a number that does not have any digits in common with its cube.

459 is the smallest number n for which reverse(n) - n contains the same digits as n.

460 ???

461 is the number of ways to stack 18 pennies in contiguous rows so that each penny lies on the table or on two pennies.

462 = 11C5.

463 is the smallest prime so that it and the next 6 primes are all equal to 3 (mod 4).

464 is the maximum number of regions space can be divided into by 12 spheres.

465 is a Kaprekar constant in base 2.

466 = 1234 in base 7.

467 has strictly increasing digits in bases 7, 9, and 10.

468 = 3333 in base 5.

469 is a value of n for which n! - 1 is prime.

470 has a base 3 representation that ends with its base 6 representation.

471 is the smallest number with the property that its first 4 multiples contain the digit 4.

472 is the number of ways to tile a 5×5 square with integer-sided squares.

473 is the largest known number whose square and 4th power use different digits.

474 is a member of the Fibonacci-type sequence starting with 1 and 8.

475 has a square that is composed of overlapping squares of smaller numbers.

476 is the number of different products of subsets of the set {1, 2, 3, ... 11}.

477 is the smallest number whose cube contains four 3's.

478 is the 7th Pell-Lucas number.

479 is the number of sets of distinct positive integers with mean 6.

480 is the smallest number which can be written as the difference of 2 squares in 8 ways.

481 is the number of conjugacy classes in the automorphism group of the 10 dimensional hypercube.

482 is a number whose square and cube use different digits.

483 is the last 3-digit string in the decimal expansion of π.

484 is a palindrome in base 3 and in base 10.

485 is the number of categories with 6 morphisms and 2 objects.

486 is a Perrin number.

487 is the number of Hadamard matrices of order 28.

488 ???

489 is an octahedral number.

490 is the number of partitions of 19.

491 is the smallest number n so that the largest prime factors of the numbers n through n+4 decrease.

492 is a Hexanacci number.

493 is a Lucas 7-step number.

494 is the number of unlabeled distributive lattices with 14 elements.

495 is the Kaprekar constant for 3-digit numbers.

496 is the 3rd perfect number.

497 is the number of graphs with 8 edges.

498 is the number of necklaces possible with 8 beads, each being one of 3 colors.

499 is the number of ways to place 26 points on a 13×13 grid so that no 3 points are on a line.

500 is the number of planar partitions of 10.

Want to see more. Then follow the link.

http://www2.stetson.edu/~efriedma/numbers.html
Just thought I'd post a list of numbers to show how important they are. LOL :o

0 is the additive identity.

1 is the multiplicative identity.

2 is the only even prime.

3 is the number of spatial dimensions we live in.

4 is the smallest number of colours sufficient to colour all planar maps.

5 is the number of Platonic solids.

6 is the smallest perfect number.

7 is the smallest number of sides of a regular polygon that is not constructible by straight-edge and compass.

8 is the largest cube in the Fibonacci sequence.

9 is the maximum number of cubes that are needed to sum to any positive integer.

10 is the base of our number system.

11 is the largest known multiplicative persistence.

12 is the smallest abundant number.

13 is the number of Archimedian solids.

14 is the smallest even number n with no solutions to φ(m) = n.

15 is the smallest composite number n with the property that there is only one group of order n.

16 is the only number of the form xy = yx with x and y being different integers.

17 is the number of wallpaper groups.

18 is the only positive number that is twice the sum of its digits.

19 is the maximum number of 4th powers needed to sum to any number.

20 is the number of rooted trees with 6 vertices.

21 is the smallest number of distinct squares needed to tile a square.

22 is the number of partitions of 8.

23 is the smallest number of integer-sided boxes that tile a box so that no two boxes share a common length.

24 is the largest number divisible by all numbers less than its square root.

25 is the smallest square that can be written as a sum of 2 squares.

26 is the only positive number to be directly between a square and a cube.

27 is the largest number that is the sum of the digits of its cube.

28 is the 2nd perfect number.

29 is the 7th Lucas number.

30 is the largest number with the property that all smaller numbers relatively prime to it are prime.

31 is a Mersenne prime.

32 is the smallest non-trivial 5th power.

33 is the largest number that is not a sum of distinct triangular numbers.

34 is the smallest number with the property that it and its neighbours have the same number of divisors.

35 is the number of hexominoes.

36 is the smallest non-trivial number which is both square and triangular.

37 is the maximum number of 5th powers needed to sum to any number.

38 is the last Roman numeral when written lexicographically.

39 is the smallest number which has 3 different partitions into 3 parts with the same product.

40 is the only number whose letters are in alphabetical order.

41 is a value of n so that x2 + x + n takes on prime values for x = 0, 1, 2, ... n-2.

42 is the 5th Catalan number.

43 is the number of sided 7-iamonds.

44 is the number of derangements of 5 items.

45 is a Kaprekar number.

46 is the number of different arrangements (up to rotation and reflection) of 9 non-attacking queens on a 9×9 chessboard.

47 is the largest number of cubes that cannot tile a cube.

48 is the smallest number with 10 divisors.

49 is the smallest number with the property that it and its neighbours are squareful.

50 is the smallest number that can be written as the sum of of 2 squares in 2 ways.

51 is the 6th Motzkin number.

52 is the 5th Bell number.

53 is the only two digit number that is reversed in hexadecimal.

54 is the smallest number that can be written as the sum of 3 squares in 3 ways.

55 is the largest triangular number in the Fibonacci sequence.

56 is the number of reduced 5×5 Latin squares.

57 = 111 in base 7.

58 is the number of commutative semi-groups of order 4.

59 is the number of stellations of an icosahedron.

60 is the smallest number divisible by 1 through 6.

61 is the 3rd secant number.

62 is the smallest number that can be written as the sum of of 3 distinct squares in 2 ways.

63 is the number of partially ordered sets of 5 elements.

64 is the smallest number with 7 divisors.

65 is the smallest number that becomes square if its reverse is either added to or subtracted from it.

66 is the number of 8-iamonds.

67 is the smallest number which is palindromic in bases 5 and 6.

68 is the 2-digit string that appears latest in the decimal expansion of π.

69 is a value of n where n2 and n3 together contain each digit once.

70 is the smallest weird number.

71 divides the sum of the primes less than it.

72 is the maximum number of spheres that can touch another sphere in a lattice packing in 6 dimensions.

73 is the smallest multi-digit number which is one less than twice its reverse.

74 is the number of different non-Hamiltonian polyhedra with a minimum number of vertices.

75 is the number of orderings of 4 objects with ties allowed.

76 is an automorphic number.

77 is the largest number that cannot be written as a sum of distinct numbers whose reciprocals sum to 1.

78 is the smallest number that can be written as the sum of of 4 distinct squares in 3 ways.

79 is a per-mutable prime.

80 is the smallest number n where n and n+1 are both products of 4 or more primes.

81 is the square of the sum of its digits.

82 is the number of 6-hexes.

83 is the number of strongly connected digraphs with 4 vertices.

84 is the largest order of a permutation of 14 elements.

85 is the largest n for which 12+22+32+ ... +n2 = 1+2+3+ ... +m has a solution.

86 = 222 in base 6.

87 is the sum of the squares of the first 4 primes.

88 is one of only 2 numbers known whose square has no isolated digits.

89 = 81 + 92

90 is the number of degrees in a right angle.

91 is the smallest pseudoprime in base 3.

92 is the number of different arrangements of 8 non-attacking queens on an 8×8 chessboard.

93 = 333 in base 5.

94 is a Smith number.

95 is the number of planar partitions of 10.

96 is the smallest number that can be written as the difference of 2 squares in 4 ways.

97 is the smallest number with the property that its first 3 multiples contain the digit 9.

98 is the smallest number with the property that its first 5 multiples contain the digit 9.

99 is a Kaprekar number.

100 is the smallest square which is also the sum of 4 consecutive cubes.

101 is the number of partitions of 13.

102 is the smallest number with three different digits.

103 has the property that placing the last digit first gives 1 more than triple it.

104 is the smallest known number of unit line segments that can exist in the plane, 4 touching at every vertex.

105 is the largest number n known with the property that n - 2k is prime for k>1.

106 is the number of trees with 10 vertices.

107 is the exponent of a Mersenne prime.

108 is 3 hyper-factorial.

109 has a 5th root that starts 2.555555....

110 is the smallest number that is the product of two different substrings.

111 is the smallest possible magic constant of a 3×3 magic square of distinct primes.

112 is the side of the smallest square that can be tiled with distinct integer-sided squares.

113 is a per-mutable prime.

114 = 222 in base 7.

115 is the number of rooted trees with 8 vertices.

116 is a value of n for which n! + 1 is prime.

117 is the smallest possible value of the longest edge in a Heronian Tetrahedron.

118 is the smallest number that has 4 different partitions into 3 parts with the same product.

119 is the smallest number n where either n or n+1 is divisible by the numbers from 1 to 8.

120 is the smallest number to appear 6 times in Pascal's triangle.

121 is the only square of the form 1 + n + n2 + n3 + n4.

122 is the smallest number n>1 so that n concatenated with n-1 0's concatenated with the reverse of n is prime.

123 is the 10th Lucas number.

124 is the smallest number with the property that its first 3 multiples contain the digit 2.

125 is the only number known that contains all its proper divisors as proper substrings.

126 = 9C4.

127 is a Mersenne prime.

128 is the largest number which is not the sum of distinct squares.

129 is the smallest number that can be written as the sum of 3 squares in 4 ways.

130 is the number of functions from 6 unlabeled points to themselves.

131 is a permutable prime.

132 is the smallest number which is the sum of all of the 2-digit numbers that can be formed with its digits.

133 is the smallest number n for which the sum of the proper divisors of n divides φ(n).

134 = 8C1 + 8C3 + 8C4.

135 = 11 + 32 + 53.

136 is the sum of the cubes of the digits of the sum of the cubes of its digits.

137 is the smallest prime with 3 distinct digits that remains prime if one of its digits is removed.

138 is a value of n for which n!!! - 1 is prime.

139 is the number of unlabeled topologies with 5 elements.

140 is a harmonic divisor number.

141 is the 6th central trinomial coefficient.

142 is the number of planar graphs with 6 vertices.

143 is the smallest quasi-Carmichael number in base 8.

144 is the largest square in the Fibonacci sequence.

145 is a factorion.

146 = 222 in base 8.

147 is the number of sided 6-hexes.

148 is the number of perfect graphs with 6 vertices.

149 is the smallest number whose square begins with three 2's.

150 = 100101102 = 21124 = 11005, each using 2 different digits an equal number of times.

151 is a palindromic prime.

152 has a square composed of the digits 0-4.

153 is a narcissistic number.

154 is the smallest number which is palindromic in bases 6, 8, and 9.

155 is the sum of the primes between its smallest and largest prime factor.

156 is the number of graphs with 6 vertices.

157 is the smallest number with φ(2n+1) < φ(2n).

158 is the number of planar partitions of 11.

159 is the number of isomers of C11H24.

160 is the number of 9-iamonds.

161 is a Cullen number.

162 is the smallest number that can be written as the sum of of 4 positive squares in 9 ways.

163 is the largest Heegner Number.

164 is the smallest number which is the concatenation of squares in two different ways.

165 is the midpoint of the nth larger prime and nth smaller prime, for 1 ≤ n ≤ 6.

166 is the number of monotone Boolean functions of 4 variables.

167 is the smallest number whose 4th power begins with 4 identical digits

168 is the size of the smallest non-cyclic simple group which is not an alternating group.

169 is the 7th Pell number.

170 is the smallest number n for which φ(n) and σ(n) are both square.

171 has the same number of digits in Roman numerals as its cube.

172 = 444 in base 6.

173 has a square containing only 2 digits.

174 is the smallest number that can be written as the sum of of 4 positive distinct squares in 6 ways.

175 = 11 + 72 + 53.

176 is an octagonal pentagonal number.

177 is the number of graphs with 7 edges.

178 has a cube with the same digits as another cube.

179 has a square comprised of the digits 0-4.

180 is the total number of degrees in a triangle.

181 is a strobogrammatic prime.

182 is the number of connected bipartite graphs with 8 vertices.

183 is the smallest number n so that n concatenated with n+1 is square.

184 is a Kaprekar constant in base 3.

185 is the number of conjugacy classes in the automorphism group of the 8 dimensional hypercube.

186 is the number of degree 11 irreducible polynomials over GF(2).

187 is the smallest quasi-Carmichael number in base 7.

188 is the number of semigroups of order 4.

189 is a Kaprekar constant in base 2.

190 is the largest number with the property that it and its ditinct prime factors are palindromic in Roman numerals.

191 is a number n for which n, n+2, n+6, and n+8 are all prime.

192 is the smallest number with 14 divisors.

193 is the largest number that can be written as ab + ac + bc with 0 < a < b < c in a unique way.

194 is the smallest number that can be written as the sum of 3 squares in 5 ways.

195 is the smallest value of n such that 2nCn is divisible by n2.

196 is the smallest number that is not known to reach a palindrome when repeatedly added to its reverse.

197 is a Keith number.

198 = 11 + 99 + 88.

199 is the 11th Lucas number.

200 is the smallest number which can not be made prime by changing one of its digits.

201 is a Kaprekar constant in base 4.

202 has a cube that contains only even digits.

203 is the 6th Bell number.

204 is the square root of a triangular number.

205 = 5 × 41 = 5416.

206 is the smallest number whose English name contains all five vowels exactly once.

207 has a 4th power where the first half of the digits are a permutation of the last half of the digits.

208 is the 10th Tetranacci number.

209 is the smallest quasi-Carmichael number in base 9.

210 is the product of the first 4 primes.

211 has a cube containing only 3 different digits.

212 has a square with 4/5 of the digits are the same.

213 is the number of perfect squared rectangles of order 13.

214 is a value of n for which n!! - 1 is prime.

215 = 555 in base 6.

216 is the smallest cube that can be written as the sum of 3 cubes.

217 is a Kaprekar constant in base 2.

218 is the number of digraphs with 4 vertices.

219 is the number of space groups, not including handedness.

220 is the smallest amicable number.

221 is the number of Hamiltonian planar graphs with 7 vertices.

222 is the number of lattices on 8 unlabeled nodes.

223 is the smallest prime p which has more primitive roots below p/2 than above p/2.

224 is the Entringer number E(6,3).

225 is an octagonal square number.

226 are the first 3 digits of π226.

227 is the number of connected planar graphs with 8 edges.

228 is the number of ways, up to rotation and reflection, of dissecting a regular 11-gon into 9 triangles.

229 is the smallest prime that remains prime when added to its reverse.

230 is the number of space groups, including handedness.

231 is the number of partitions of 16.

232 is the number of 7×7 symmetric permutation matrices.

233 is the smallest number with the property that it and its neighbors can be written as a sum of 2 squares.

234 is the number of ways to stack 12 pennies in a line so that each penny lies on the table or on two pennies.

235 is the number of trees with 11 vertices.

236 is the number of possible positions in Othello after 2 moves by both players.

237 is the smallest number with the property that its first 3 multiples contain the digit 7.

238 is the number of connected partial orders on 6 unlabeled elements.

239 is the largest number that cannot be written as a sum of 8 or fewer cubes.

240 is the smallest number with 20 divisors.

241 is the only number n for which the nth prime is π(n π(n)).

242 is the smallest n for which n, n+1, n+2, and n+3 have the same number of divisors.

243 = 35.

244 is the smallest number (besides 2) that can be written as the sum of 2 squares or the sum of two 5th powers.

245 is a stella octangula number.

246 = 9C2 + 9C4 + 9C6.

247 is the smallest possible difference between two integers that together contain each digit exactly once.

248 is the smallest number n>1 for which the arithmetic, geometric, and harmonic means of φ(n) and σ(n) are all integers.

249 is the index of a prime Woodall number.

250 is the smallest multi-digit number so that the sum of the squares of its prime factors equals the sum of the squares of its digits.

251 is the smallest number that can be written as the sum of 3 cubes in 2 ways.

252 is the 5th central binomial coefficient.

253 is the smallest non-trivial triangular star number.

254 is the smallest multi-digit composite number all of whose proper divisors contain the digit 2.

255 = 11111111 in base 2.

256 is the smallest non-trivial 8th power.

257 is a Fermat prime.

258 is a value of n so that n(n+9) is a palindrome.

259 = 1111 in base 6.

260 is the constant of an 8×8 magic square.

261 is the number of essentially different ways to dissect a 16-gon into 7 quadrilaterals.

262 is the 5th meandric number and the 9th open meandric number.

263 is the largest known prime whose square is strobogrammatic.

264 is the largest known number whose square is undulating.

265 is the number of derangements of 6 items.

266 is the Stirling number of the second kind S(8,6).

267 is the number of planar partitions of 12.

268 is the smallest number whose product of digits is 6 times the sum of its digits.

269 is the number of 6-octs.

270 is a harmonic divisor number.

271 is the smallest prime p so that p-1 and p+1 are divisible by cubes.

272 is the 4th tangent number.

273 = 333 in base 9.

274 is the Stirling number of the first kind s(6,2).

275 is the number of partitions of 28 in which no part occurs only once.

276 = 15 + 25 + 35.

277 is a Perrin number.

278 is the closest integer to 6π.

279 is the maximum number of 8th powers needed to sum to any number.

280 is the number of ways 18 people around a round table can shake hands in a non-crossing way, up to rotation.

281 is the sum of the first 14 primes.

282 is the number of planar partitions of 9.

283 = 25 + 8 + 35.

284 is an amicable number.

285 is the number of binary rooted trees with 13 vertices.

286 is the number of rooted trees with 9 vertices.

287 is the sum of consecutive primes in 3 different ways.

288 is the smallest non-palindrome non-square that when multiplied by its reverse is a square.

289 is a Friedman number.

290 has a base 3 representation that ends with its base 6 representation.

291 is the largest number that is not the sum of distinct non-trivial powers.

292 is the number of ways to make change for a dollar.

293 is the number of ways to stack 20 boxes in a line so that each box lies on the table or on a box next to 2 boxes.

294 is the number of planar 2-connected graphs with 7 vertices.

295 is a structured deltoidal hexacontahedral number.

296 is the number of partitions of 30 into distinct parts.

297 is a Kaprekar number.

298 is a value of n so that n(n+3) is a palindrome.

299 is the maximum number of regions a cube can be cut into with 12 cuts.

300 is the largest possible score in bowling.

301 is a 6-hyperperfect number.

302 is the number of ways to play the first 3 moves in Checkers.

303 is the number of bipartite graphs with 8 vertices.

304 is a primitive semiperfect number.

305 is an hexagonal prism number.

306 is the number of 5-digit triangular numbers.

307 is a non-palindrome with a palindromic square.

308 is a heptagonal pyramidal number.

309 is the smallest number whose 5th power contains every digit at least once.

310 = 1234 in base 6.

311 is a permutable prime.

312 = 2222 in base 5.

313 is the number of intersections when all the diagonals of a regular dodecagon are drawn.

314 is the smallest number that can be written as the sum of of 3 positive distinct squares in 6 ways.

315 = (4+3) × (4+1) × (4+5).

316 has a digit product which is the digit sum of (31)6.

317 is the number of binary 4×4 matrices up to permutations of rows and columns.

318 is the number of unlabeled partially ordered sets of 6 elements.

319 is the smallest number with the property that the partition with the largest product does not have a maximum number of parts.

320 is the maximum determinant of a binary 10×10 matrix.

321 is a Delannoy number.

322 is the 12th Lucas number.

323 is the smallest composite number n that divides the (n+1)st Fibonacci number.

324 is the largest possible product of positive integers with sum 16.

325 is a 3-hyperperfect number.

326 is the number of permutations of some subset of 5 elements.

327 is the largest number n so that n, 2n, and 3n together contain every digit from 1-9 exactly once.

328 concatenated with its successor is square.

329 is the number of forests with 10 vertices.

330 = 11C4.

331 is both a centered pentagonal number and a centered hexagonal number.

332 is the number of 2-connected graphs with 7 vertices

333 is the number of 7-hexes.

334 is the number of trees on 13 vertices with diameter 7.

335 is the number of degree 12 irreducible polynomials over GF(2).

336 = 8P3.

337 is the number of different resistances that can be created in a circuit of 8 equal resistors.

338 is the smallest number for which both the number of divisors and the sum of its prime factors is a perfect number.

339 is the number of ways to divide 5 black and 5 white beads into piles.

340 is a value of n for which n! + 1 is prime.

341 is the smallest pseudoprime in base 2.

342 is the number of inequivalent binary linear codes of length 8.

343 is a strong Friedman number.

344 is the smallest number that can be written as the sum of a cube and a 7th power in more than one way.

345 is half again as large as the sum of its proper divisors.

346 is a Franel number.

347 is a Friedman number.

348 is the smallest number whose 5th power contains exactly the same digits as another 5th power.

349 is a Tetranacci-like number starting from 1, 1, 1, and 1.

350 is the Stirling number of the second kind S(7,4).

351 is the smallest number so that it and the surrounding numbers are all products of 4 or more primes.

352 is the number of different arrangements of 9 non-attacking queens on an 9×9 chessboard.

353 is the smallest number whose 4th power can be written as the sum of four 4th powers.

354 is the sum of the first four 4th powers.

355 is the number of labeled topologies with 4 elements.

356 is the smallest happy number of height 6.

357 has a base 3 representation that ends with its base 7 representation.

358 has a base 3 representation that ends with its base 7 representation.

359 has a base 3 representation that ends with its base 7 representation.

360 is the number of degrees in a circle.

361 is the number of intersections on a Go board.

362 and its double and triple all use the same number of digits in Roman numerals.

363 is a perfect totient number.

364 = 14C3.

365 is the smallest number that can be written as a sum of consecutive squares in more than 1 way.

366 is the number of days in a leap year.

367 is the largest number whose square has strictly increasing digits.

368 is the number of ways to tile a 4×15 rectangle with the pentominoes.

369 is the number of octominoes.

370 is a narcissistic number.

371 is a narcissistic number.

372 is a hexagonal pyramidal number.

373 is a permutable prime.

374 is the smallest number that can be written as the sum of 3 squares in 8 ways.

375 is a truncated tetrahedral number.

376 is an automorphic number.

377 is the 14th Fibonacci number.

378 is the maximum number of regions a cube can be cut into with 13 cuts.

379 is a value of n for which one more than the product of the first n primes is prime.

380 is the number of necklaces possible with 13 beads, each being one of 2 colors.

381 is a Kaprekar constant in base 2.

382 is the smallest number n with σ(n) = σ(n+3).

383 is the number of Hamiltonian graphs with 7 vertices.

384 = 8!! = 12!!!!.

385 is the number of partitions of 18.

386 is the number of regions the complex plane is cut into by drawing lines between all pairs of 11th roots of unity.

387 is the smallest number with sort-then-add persistence of 10.

388 is the maximum value of n so that there exist 6 denominations of stamps so that every postage from 1 to n can be paid for with at most 6 stamps.

389 is the smallest prime so that it and the next 3 primes are all equal to 1 (mod 4).

390 is the number of partitions of 32 into distinct parts.

391 ???

392 is a Kaprekar constant in base 5.

393 is the 7th central trinomial coefficient.

394 is a Schröder number.

395 does not occur in its factorial in base 2.

396 is the number of 3×3 sliding puzzle positions that require exactly 11 moves to solve starting with the hole in a corner.

397 is a Cuban prime.

398 is the number of integers with complexity 22.

399 is a Lucas-Carmichael number.

400 = 1111 in base 7.

401 is the number of connected planar Eulerian graphs with 9 vertices.

402 is the number of graphs with 8 vertices and 9 edges.

403 is the product of two primes which are reverses of each other.

404 is the number of sided 10-hexes with holes.

405 is a pentagonal pyramidal number.

406 is the number of ways to tile a 3×17 rectangle with 3×1 rectangles.

407 is a narcissistic number.

408 is the 8th Pell number.

409 is the number of graphs with 8 vertices with clique number 2.

410 is the smallest number that can be written as the sum of 2 distinct prime powers in 2 ways.

411 is a member of the Fibonacci-type sequence starting with 1 and 4.

412 is the number of subsets of {1,2,3,...,11} that have a sum divisible by 5.

413 is a structured hexagonal diamond number.

414 is a value of n for which n4, n5, n6, and n7 have the same digit sum.

415 is the 10th Iccanobif number, where each term is the reverse of the sum of the previous two numbers.

416 is the number of subsets of the 15th roots of unity that add to a real number.

417 is the smallest number so that it and the next 3 numbers have different numbers of distinct prime factors.

418 has the property that the sum of its prime factors is equal to the product of its digits.

419 is the number of ways to divide a 6×6 grid of points into two sets using a straight line.

420 is the smallest number divisible by 1 through 7.

421 is the number of commutative monoids of order 6.

422 is the smallest number whose 8th power has 21 digits.

423 is a number that does not have any digits in common with its cube.

424 ???

425 is the number of subsets of {1,2,3,...,11} that have an integer average.

426 is a stella octangula number.

427 is a value of n for which n! + 1 is prime.

428 has the property that its square is the concatenation of two consecutive numbers.

429 is the 7th Catalan number.

430 is the number of necklaces possible with 6 beads, each being one of 4 colors.

431 is the index of a prime Fibonacci number.

432 = 4 × 33 × 22.

433 is the index of a prime Fibonacci number.

434 is the smallest composite value of n for which σ(n) + 2 = σ(n+2).

435 is the number of ordered partitions of 16 into distinct parts.

436 is the smallest number whose cube contains four 8's.

437 has a cube with the last 3 digits the same as the 3 digits before that.

438 = 666 in base 8.

439 is the smallest prime where inserting the same digit between every pair of digits never yields another prime.

440 is the number of permutations of 12 items that fix 9 elements.

441 is the smallest square which is the sum of 6 consecutive cubes.

442 is the number of planar partitions of 13.

443 is a value of n for which σ(n) is a repdigit.

444 is the largest known n for which there is a unique integer solution to a1+ ... +an = (a1)...(an).

445 has a base 10 representation which is the reverse of its base 9 representation.

446 is the smallest number that can be written as the sum of 3 distinct squares in 8 ways.

447 is the smallest number of convex quadrilaterals formed by 15 points in general position.

448 is the number of 10-iamonds.

449 has a base 3 representation that begins with its base 7 representation.

450 is the number of 13-iamonds with holes.

451 is the smallest number whose reciprocal has period 10.

452 is the closest integer to 7π.

453 is the only number n so that n, 2n, and 6n together contain every digit exactly once.

454 is the largest number known that cannot be written as a sum of 7 or fewer cubes.

455 = 15C3.

456 is the number of tournaments with 7 vertices.

457 is the index of a prime Euclid number.

458 is a number that does not have any digits in common with its cube.

459 is the smallest number n for which reverse(n) - n contains the same digits as n.

460 ???

461 is the number of ways to stack 18 pennies in contiguous rows so that each penny lies on the table or on two pennies.

462 = 11C5.

463 is the smallest prime so that it and the next 6 primes are all equal to 3 (mod 4).

464 is the maximum number of regions space can be divided into by 12 spheres.

465 is a Kaprekar constant in base 2.

466 = 1234 in base 7.

467 has strictly increasing digits in bases 7, 9, and 10.

468 = 3333 in base 5.

469 is a value of n for which n! - 1 is prime.

470 has a base 3 representation that ends with its base 6 representation.

471 is the smallest number with the property that its first 4 multiples contain the digit 4.

472 is the number of ways to tile a 5×5 square with integer-sided squares.

473 is the largest known number whose square and 4th power use different digits.

474 is a member of the Fibonacci-type sequence starting with 1 and 8.

475 has a square that is composed of overlapping squares of smaller numbers.

476 is the number of different products of subsets of the set {1, 2, 3, ... 11}.

477 is the smallest number whose cube contains four 3's.

478 is the 7th Pell-Lucas number.

479 is the number of sets of distinct positive integers with mean 6.

480 is the smallest number which can be written as the difference of 2 squares in 8 ways.

481 is the number of conjugacy classes in the automorphism group of the 10 dimensional hypercube.

482 is a number whose square and cube use different digits.

483 is the last 3-digit string in the decimal expansion of π.

484 is a palindrome in base 3 and in base 10.

485 is the number of categories with 6 morphisms and 2 objects.

486 is a Perrin number.

487 is the number of Hadamard matrices of order 28.

488 ???

489 is an octahedral number.

490 is the number of partitions of 19.

491 is the smallest number n so that the largest prime factors of the numbers n through n+4 decrease.

492 is a Hexanacci number.

493 is a Lucas 7-step number.

494 is the number of unlabeled distributive lattices with 14 elements.

495 is the Kaprekar constant for 3-digit numbers.

496 is the 3rd perfect number.

497 is the number of graphs with 8 edges.

498 is the number of necklaces possible with 8 beads, each being one of 3 colors.

499 is the number of ways to place 26 points on a 13×13 grid so that no 3 points are on a line.

500 is the number of planar partitions of 10.

Want to see more. Then follow the link.

[url]http://www2.stetson.edu/~efriedma/numbers.html[/url]