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1000 Tech Facts

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  1. The fact that email existed before the World Wide Web.
  2. Interestingly, Email existed before the World Wide Web.
  3. Surprisingly, Email existed before the World Wide Web.
  4. Remarkably, Email existed before the World Wide Web.
  5. In fact, Email existed before the World Wide Web.
  6. Often, The fact that email existed before the World Wide Web.
  7. Sometimes, Email existed before the World Wide Web.
  8. Email existed before the World Wide Web. — a detail many don’t realize.
  9. Interestingly, Email existed before the World Wide Web. — a detail many don’t realize.
  10. Surprisingly, Email existed before the World Wide Web. — a detail many don’t realize.
  11. Remarkably, The fact that email existed before the World Wide Web. — a detail many don’t realize.
  12. In fact, Email existed before the World Wide Web. — a detail many don’t realize.
  13. Often, Email existed before the World Wide Web. — a detail many don’t realize.
  14. Sometimes, Email existed before the World Wide Web. — a detail many don’t realize.
  15. Email existed before the World Wide Web. — and it still holds true.
  16. Interestingly, The fact that email existed before the World Wide Web. — and it still holds true.
  17. Surprisingly, Email existed before the World Wide Web. — and it still holds true.
  18. Remarkably, Email existed before the World Wide Web. — and it still holds true.
  19. In fact, Email existed before the World Wide Web. — and it still holds true.
  20. Often, Email existed before the World Wide Web. — and it still holds true.
  21. Sometimes, The fact that email existed before the World Wide Web. — and it still holds true.
  22. Email existed before the World Wide Web. — a neat bit of trivia.
  23. Interestingly, Email existed before the World Wide Web. — a neat bit of trivia.
  24. Surprisingly, Email existed before the World Wide Web. — a neat bit of trivia.
  25. Remarkably, Email existed before the World Wide Web. — a neat bit of trivia.
  26. In fact, The fact that email existed before the World Wide Web. — a neat bit of trivia.
  27. Often, Email existed before the World Wide Web. — a neat bit of trivia.
  28. Sometimes, Email existed before the World Wide Web. — a neat bit of trivia.
  29. Email existed before the World Wide Web.
  30. Interestingly, Email existed before the World Wide Web.
  31. Surprisingly, The fact that email existed before the World Wide Web.
  32. Remarkably, Email existed before the World Wide Web.
  33. In fact, Email existed before the World Wide Web.
  34. Often, Email existed before the World Wide Web.
  35. The fact that the first domain name registered was symbolics.com in 1985.
  36. Interestingly, The first domain name registered was symbolics.com in 1985.
  37. Surprisingly, The first domain name registered was symbolics.com in 1985.
  38. Remarkably, The first domain name registered was symbolics.com in 1985.
  39. In fact, The first domain name registered was symbolics.com in 1985.
  40. Often, The fact that the first domain name registered was symbolics.com in 1985.
  41. Sometimes, The first domain name registered was symbolics.com in 1985.
  42. The first domain name registered was symbolics.com in 1985. — a detail many don’t realize.
  43. Interestingly, The first domain name registered was symbolics.com in 1985. — a detail many don’t realize.
  44. Surprisingly, The first domain name registered was symbolics.com in 1985. — a detail many don’t realize.
  45. Remarkably, The fact that the first domain name registered was symbolics.com in 1985. — a detail many don’t realize.
  46. In fact, The first domain name registered was symbolics.com in 1985. — a detail many don’t realize.
  47. Often, The first domain name registered was symbolics.com in 1985. — a detail many don’t realize.
  48. Sometimes, The first domain name registered was symbolics.com in 1985. — a detail many don’t realize.
  49. The first domain name registered was symbolics.com in 1985. — and it still holds true.
  50. Interestingly, The fact that the first domain name registered was symbolics.com in 1985. — and it still holds true.
  51. Surprisingly, The first domain name registered was symbolics.com in 1985. — and it still holds true.
  52. Remarkably, The first domain name registered was symbolics.com in 1985. — and it still holds true.
  53. In fact, The first domain name registered was symbolics.com in 1985. — and it still holds true.
  54. Often, The first domain name registered was symbolics.com in 1985. — and it still holds true.
  55. Sometimes, The fact that the first domain name registered was symbolics.com in 1985. — and it still holds true.
  56. The first domain name registered was symbolics.com in 1985. — a neat bit of trivia.
  57. Interestingly, The first domain name registered was symbolics.com in 1985. — a neat bit of trivia.
  58. Surprisingly, The first domain name registered was symbolics.com in 1985. — a neat bit of trivia.
  59. Remarkably, The first domain name registered was symbolics.com in 1985. — a neat bit of trivia.
  60. In fact, The fact that the first domain name registered was symbolics.com in 1985. — a neat bit of trivia.
  61. Often, The first domain name registered was symbolics.com in 1985. — a neat bit of trivia.
  62. Sometimes, The first domain name registered was symbolics.com in 1985. — a neat bit of trivia.
  63. The first domain name registered was symbolics.com in 1985.
  64. Interestingly, The first domain name registered was symbolics.com in 1985.
  65. Surprisingly, The fact that the first domain name registered was symbolics.com in 1985.
  66. Remarkably, The first domain name registered was symbolics.com in 1985.
  67. In fact, The first domain name registered was symbolics.com in 1985.
  68. Often, The first domain name registered was symbolics.com in 1985.
  69. The fact that ‘Bluetooth’ is actually named after a Viking king; its logo fuses runes for H and B.
  70. Interestingly, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B.
  71. Surprisingly, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B.
  72. Remarkably, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B.
  73. In fact, ‘Bluetooth’ is actually named after a Viking king; its logo fuses runes for H and B.
  74. Often, The fact that ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B.
  75. Sometimes, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B.
  76. ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a detail many don’t realize.
  77. Interestingly, ‘Bluetooth’ is actually named after a Viking king; its logo fuses runes for H and B. — a detail many don’t realize.
  78. Surprisingly, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a detail many don’t realize.
  79. Remarkably, The fact that ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a detail many don’t realize.
  80. In fact, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a detail many don’t realize.
  81. Often, ‘Bluetooth’ is actually named after a Viking king; its logo fuses runes for H and B. — a detail many don’t realize.
  82. Sometimes, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a detail many don’t realize.
  83. ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — and it still holds true.
  84. Interestingly, The fact that ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — and it still holds true.
  85. Surprisingly, ‘Bluetooth’ is actually named after a Viking king; its logo fuses runes for H and B. — and it still holds true.
  86. Remarkably, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — and it still holds true.
  87. In fact, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — and it still holds true.
  88. Often, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — and it still holds true.
  89. Sometimes, The fact that ‘Bluetooth’ is actually named after a Viking king; its logo fuses runes for H and B. — and it still holds true.
  90. ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a neat bit of trivia.
  91. Interestingly, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a neat bit of trivia.
  92. Surprisingly, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a neat bit of trivia.
  93. Remarkably, ‘Bluetooth’ is actually named after a Viking king; its logo fuses runes for H and B. — a neat bit of trivia.
  94. In fact, The fact that ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a neat bit of trivia.
  95. Often, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a neat bit of trivia.
  96. Sometimes, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B. — a neat bit of trivia.
  97. ‘Bluetooth’ is actually named after a Viking king; its logo fuses runes for H and B.
  98. Interestingly, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B.
  99. Surprisingly, The fact that ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B.
  100. Remarkably, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B.
  101. In fact, ‘Bluetooth’ is actually named after a Viking king; its logo fuses runes for H and B.
  102. Often, ‘Bluetooth’ is named after a Viking king; its logo fuses runes for H and B.
  103. The fact that the first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  104. Interestingly, The first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  105. Surprisingly, The first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  106. Remarkably, The first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  107. In fact, The first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  108. Often, The fact that the first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  109. Sometimes, The first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  110. The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a detail many don’t realize.
  111. Interestingly, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a detail many don’t realize.
  112. Surprisingly, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a detail many don’t realize.
  113. Remarkably, The fact that the first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a detail many don’t realize.
  114. In fact, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a detail many don’t realize.
  115. Often, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a detail many don’t realize.
  116. Sometimes, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a detail many don’t realize.
  117. The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — and it still holds true.
  118. Interestingly, The fact that the first computer ‘bug’ was a moth found in a Harvard machine in 1947. — and it still holds true.
  119. Surprisingly, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — and it still holds true.
  120. Remarkably, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — and it still holds true.
  121. In fact, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — and it still holds true.
  122. Often, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — and it still holds true.
  123. Sometimes, The fact that the first computer ‘bug’ was a moth found in a Harvard machine in 1947. — and it still holds true.
  124. The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a neat bit of trivia.
  125. Interestingly, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a neat bit of trivia.
  126. Surprisingly, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a neat bit of trivia.
  127. Remarkably, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a neat bit of trivia.
  128. In fact, The fact that the first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a neat bit of trivia.
  129. Often, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a neat bit of trivia.
  130. Sometimes, The first computer ‘bug’ was a moth found in a Harvard machine in 1947. — a neat bit of trivia.
  131. The first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  132. Interestingly, The first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  133. Surprisingly, The fact that the first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  134. Remarkably, The first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  135. In fact, The first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  136. Often, The first computer ‘bug’ was a moth found in a Harvard machine in 1947.
  137. The fact that ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  138. Interestingly, Ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  139. Surprisingly, Ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  140. Remarkably, Ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  141. In fact, Ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  142. Often, The fact that ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  143. Sometimes, Ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  144. Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a detail many don’t realize.
  145. Interestingly, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a detail many don’t realize.
  146. Surprisingly, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a detail many don’t realize.
  147. Remarkably, The fact that ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a detail many don’t realize.
  148. In fact, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a detail many don’t realize.
  149. Often, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a detail many don’t realize.
  150. Sometimes, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a detail many don’t realize.
  151. Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — and it still holds true.
  152. Interestingly, The fact that ray Tomlinson chose the @ symbol to separate user and host in email addresses. — and it still holds true.
  153. Surprisingly, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — and it still holds true.
  154. Remarkably, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — and it still holds true.
  155. In fact, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — and it still holds true.
  156. Often, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — and it still holds true.
  157. Sometimes, The fact that ray Tomlinson chose the @ symbol to separate user and host in email addresses. — and it still holds true.
  158. Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a neat bit of trivia.
  159. Interestingly, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a neat bit of trivia.
  160. Surprisingly, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a neat bit of trivia.
  161. Remarkably, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a neat bit of trivia.
  162. In fact, The fact that ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a neat bit of trivia.
  163. Often, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a neat bit of trivia.
  164. Sometimes, Ray Tomlinson chose the @ symbol to separate user and host in email addresses. — a neat bit of trivia.
  165. Ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  166. Interestingly, Ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  167. Surprisingly, The fact that ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  168. Remarkably, Ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  169. In fact, Ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  170. Often, Ray Tomlinson chose the @ symbol to separate user and host in email addresses.
  171. The fact that the first photo posted on the web featured a CERN house band.
  172. Interestingly, The first photo posted on the web featured a CERN house band.
  173. Surprisingly, The first photo posted on the web featured a CERN house band.
  174. Remarkably, The first photo posted on the web featured a CERN house band.
  175. In fact, The first photo posted on the web featured a CERN house band.
  176. Often, The fact that the first photo posted on the web featured a CERN house band.
  177. Sometimes, The first photo posted on the web featured a CERN house band.
  178. The first photo posted on the web featured a CERN house band. — a detail many don’t realize.
  179. Interestingly, The first photo posted on the web featured a CERN house band. — a detail many don’t realize.
  180. Surprisingly, The first photo posted on the web featured a CERN house band. — a detail many don’t realize.
  181. Remarkably, The fact that the first photo posted on the web featured a CERN house band. — a detail many don’t realize.
  182. In fact, The first photo posted on the web featured a CERN house band. — a detail many don’t realize.
  183. Often, The first photo posted on the web featured a CERN house band. — a detail many don’t realize.
  184. Sometimes, The first photo posted on the web featured a CERN house band. — a detail many don’t realize.
  185. The first photo posted on the web featured a CERN house band. — and it still holds true.
  186. Interestingly, The fact that the first photo posted on the web featured a CERN house band. — and it still holds true.
  187. Surprisingly, The first photo posted on the web featured a CERN house band. — and it still holds true.
  188. Remarkably, The first photo posted on the web featured a CERN house band. — and it still holds true.
  189. In fact, The first photo posted on the web featured a CERN house band. — and it still holds true.
  190. Often, The first photo posted on the web featured a CERN house band. — and it still holds true.
  191. Sometimes, The fact that the first photo posted on the web featured a CERN house band. — and it still holds true.
  192. The first photo posted on the web featured a CERN house band. — a neat bit of trivia.
  193. Interestingly, The first photo posted on the web featured a CERN house band. — a neat bit of trivia.
  194. Surprisingly, The first photo posted on the web featured a CERN house band. — a neat bit of trivia.
  195. Remarkably, The first photo posted on the web featured a CERN house band. — a neat bit of trivia.
  196. In fact, The fact that the first photo posted on the web featured a CERN house band. — a neat bit of trivia.
  197. Often, The first photo posted on the web featured a CERN house band. — a neat bit of trivia.
  198. Sometimes, The first photo posted on the web featured a CERN house band. — a neat bit of trivia.
  199. The first photo posted on the web featured a CERN house band.
  200. Interestingly, The first photo posted on the web featured a CERN house band.
  201. Surprisingly, The fact that the first photo posted on the web featured a CERN house band.
  202. Remarkably, The first photo posted on the web featured a CERN house band.
  203. In fact, The first photo posted on the web featured a CERN house band.
  204. Often, The first photo posted on the web featured a CERN house band.
  205. The fact that early hard drives were the size of refrigerators yet held less than a modern song file.
  206. Interestingly, Early hard drives were the size of refrigerators yet held less than a modern song file.
  207. Surprisingly, Early hard drives were the size of refrigerators yet held less than a modern song file.
  208. Remarkably, Early hard drives were the size of refrigerators yet held less than a modern song file.
  209. In fact, Early hard drives were the size of refrigerators yet held less than a modern song file.
  210. Often, The fact that early hard drives were the size of refrigerators yet held less than a modern song file.
  211. Sometimes, Early hard drives were the size of refrigerators yet held less than a modern song file.
  212. Early hard drives were the size of refrigerators yet held less than a modern song file. — a detail many don’t realize.
  213. Interestingly, Early hard drives were the size of refrigerators yet held less than a modern song file. — a detail many don’t realize.
  214. Surprisingly, Early hard drives were the size of refrigerators yet held less than a modern song file. — a detail many don’t realize.
  215. Remarkably, The fact that early hard drives were the size of refrigerators yet held less than a modern song file. — a detail many don’t realize.
  216. In fact, Early hard drives were the size of refrigerators yet held less than a modern song file. — a detail many don’t realize.
  217. Often, Early hard drives were the size of refrigerators yet held less than a modern song file. — a detail many don’t realize.
  218. Sometimes, Early hard drives were the size of refrigerators yet held less than a modern song file. — a detail many don’t realize.
  219. Early hard drives were the size of refrigerators yet held less than a modern song file. — and it still holds true.
  220. Interestingly, The fact that early hard drives were the size of refrigerators yet held less than a modern song file. — and it still holds true.
  221. Surprisingly, Early hard drives were the size of refrigerators yet held less than a modern song file. — and it still holds true.
  222. Remarkably, Early hard drives were the size of refrigerators yet held less than a modern song file. — and it still holds true.
  223. In fact, Early hard drives were the size of refrigerators yet held less than a modern song file. — and it still holds true.
  224. Often, Early hard drives were the size of refrigerators yet held less than a modern song file. — and it still holds true.
  225. Sometimes, The fact that early hard drives were the size of refrigerators yet held less than a modern song file. — and it still holds true.
  226. Early hard drives were the size of refrigerators yet held less than a modern song file. — a neat bit of trivia.
  227. Interestingly, Early hard drives were the size of refrigerators yet held less than a modern song file. — a neat bit of trivia.
  228. Surprisingly, Early hard drives were the size of refrigerators yet held less than a modern song file. — a neat bit of trivia.
  229. Remarkably, Early hard drives were the size of refrigerators yet held less than a modern song file. — a neat bit of trivia.
  230. In fact, The fact that early hard drives were the size of refrigerators yet held less than a modern song file. — a neat bit of trivia.
  231. Often, Early hard drives were the size of refrigerators yet held less than a modern song file. — a neat bit of trivia.
  232. Sometimes, Early hard drives were the size of refrigerators yet held less than a modern song file. — a neat bit of trivia.
  233. Early hard drives were the size of refrigerators yet held less than a modern song file.
  234. Interestingly, Early hard drives were the size of refrigerators yet held less than a modern song file.
  235. Surprisingly, The fact that early hard drives were the size of refrigerators yet held less than a modern song file.
  236. Remarkably, Early hard drives were the size of refrigerators yet held less than a modern song file.
  237. In fact, Early hard drives were the size of refrigerators yet held less than a modern song file.
  238. Often, Early hard drives were the size of refrigerators yet held less than a modern song file.
  239. The fact that qR codes were invented for tracking auto parts before becoming phone‑friendly.
  240. Interestingly, QR codes were invented for tracking auto parts before becoming phone‑friendly.
  241. Surprisingly, QR codes were invented for tracking auto parts before becoming phone‑friendly.
  242. Remarkably, QR codes were invented for tracking auto parts before becoming phone‑friendly.
  243. In fact, QR codes were invented for tracking auto parts before becoming phone‑friendly.
  244. Often, The fact that qR codes were invented for tracking auto parts before becoming phone‑friendly.
  245. Sometimes, QR codes were invented for tracking auto parts before becoming phone‑friendly.
  246. QR codes were invented for tracking auto parts before becoming phone‑friendly. — a detail many don’t realize.
  247. Interestingly, QR codes were invented for tracking auto parts before becoming phone‑friendly. — a detail many don’t realize.
  248. Surprisingly, QR codes were invented for tracking auto parts before becoming phone‑friendly. — a detail many don’t realize.
  249. Remarkably, The fact that qR codes were invented for tracking auto parts before becoming phone‑friendly. — a detail many don’t realize.
  250. In fact, QR codes were invented for tracking auto parts before becoming phone‑friendly. — a detail many don’t realize.
  251. Often, QR codes were invented for tracking auto parts before becoming phone‑friendly. — a detail many don’t realize.
  252. Sometimes, QR codes were invented for tracking auto parts before becoming phone‑friendly. — a detail many don’t realize.
  253. QR codes were invented for tracking auto parts before becoming phone‑friendly. — and it still holds true.
  254. Interestingly, The fact that qR codes were invented for tracking auto parts before becoming phone‑friendly. — and it still holds true.
  255. Surprisingly, QR codes were invented for tracking auto parts before becoming phone‑friendly. — and it still holds true.
  256. Remarkably, QR codes were invented for tracking auto parts before becoming phone‑friendly. — and it still holds true.
  257. In fact, QR codes were invented for tracking auto parts before becoming phone‑friendly. — and it still holds true.
  258. Often, QR codes were invented for tracking auto parts before becoming phone‑friendly. — and it still holds true.
  259. Sometimes, The fact that qR codes were invented for tracking auto parts before becoming phone‑friendly. — and it still holds true.
  260. QR codes were invented for tracking auto parts before becoming phone‑friendly. — a neat bit of trivia.
  261. Interestingly, QR codes were invented for tracking auto parts before becoming phone‑friendly. — a neat bit of trivia.
  262. Surprisingly, QR codes were invented for tracking auto parts before becoming phone‑friendly. — a neat bit of trivia.
  263. Remarkably, QR codes were invented for tracking auto parts before becoming phone‑friendly. — a neat bit of trivia.
  264. In fact, The fact that qR codes were invented for tracking auto parts before becoming phone‑friendly. — a neat bit of trivia.
  265. Often, QR codes were invented for tracking auto parts before becoming phone‑friendly. — a neat bit of trivia.
  266. Sometimes, QR codes were invented for tracking auto parts before becoming phone‑friendly. — a neat bit of trivia.
  267. QR codes were invented for tracking auto parts before becoming phone‑friendly.
  268. Interestingly, QR codes were invented for tracking auto parts before becoming phone‑friendly.
  269. Surprisingly, The fact that qR codes were invented for tracking auto parts before becoming phone‑friendly.
  270. Remarkably, QR codes were invented for tracking auto parts before becoming phone‑friendly.
  271. In fact, QR codes were invented for tracking auto parts before becoming phone‑friendly.
  272. Often, QR codes were invented for tracking auto parts before becoming phone‑friendly.
  273. The fact that uSB‑C is actually reversible so you can’t plug it in upside down.
  274. Interestingly, USB‑C is reversible so you can’t plug it in upside down.
  275. Surprisingly, USB‑C is reversible so you can’t plug it in upside down.
  276. Remarkably, USB‑C is reversible so you can’t plug it in upside down.
  277. In fact, USB‑C is actually reversible so you can’t plug it in upside down.
  278. Often, The fact that uSB‑C is reversible so you can’t plug it in upside down.
  279. Sometimes, USB‑C is reversible so you can’t plug it in upside down.
  280. USB‑C is reversible so you can’t plug it in upside down. — a detail many don’t realize.
  281. Interestingly, USB‑C is actually reversible so you can’t plug it in upside down. — a detail many don’t realize.
  282. Surprisingly, USB‑C is reversible so you can’t plug it in upside down. — a detail many don’t realize.
  283. Remarkably, The fact that uSB‑C is reversible so you can’t plug it in upside down. — a detail many don’t realize.
  284. In fact, USB‑C is reversible so you can’t plug it in upside down. — a detail many don’t realize.
  285. Often, USB‑C is actually reversible so you can’t plug it in upside down. — a detail many don’t realize.
  286. Sometimes, USB‑C is reversible so you can’t plug it in upside down. — a detail many don’t realize.
  287. USB‑C is reversible so you can’t plug it in upside down. — and it still holds true.
  288. Interestingly, The fact that uSB‑C is reversible so you can’t plug it in upside down. — and it still holds true.
  289. Surprisingly, USB‑C is actually reversible so you can’t plug it in upside down. — and it still holds true.
  290. Remarkably, USB‑C is reversible so you can’t plug it in upside down. — and it still holds true.
  291. In fact, USB‑C is reversible so you can’t plug it in upside down. — and it still holds true.
  292. Often, USB‑C is reversible so you can’t plug it in upside down. — and it still holds true.
  293. Sometimes, The fact that uSB‑C is actually reversible so you can’t plug it in upside down. — and it still holds true.
  294. USB‑C is reversible so you can’t plug it in upside down. — a neat bit of trivia.
  295. Interestingly, USB‑C is reversible so you can’t plug it in upside down. — a neat bit of trivia.
  296. Surprisingly, USB‑C is reversible so you can’t plug it in upside down. — a neat bit of trivia.
  297. Remarkably, USB‑C is actually reversible so you can’t plug it in upside down. — a neat bit of trivia.
  298. In fact, The fact that uSB‑C is reversible so you can’t plug it in upside down. — a neat bit of trivia.
  299. Often, USB‑C is reversible so you can’t plug it in upside down. — a neat bit of trivia.
  300. Sometimes, USB‑C is reversible so you can’t plug it in upside down. — a neat bit of trivia.
  301. USB‑C is actually reversible so you can’t plug it in upside down.
  302. Interestingly, USB‑C is reversible so you can’t plug it in upside down.
  303. Surprisingly, The fact that uSB‑C is reversible so you can’t plug it in upside down.
  304. Remarkably, USB‑C is reversible so you can’t plug it in upside down.
  305. In fact, USB‑C is actually reversible so you can’t plug it in upside down.
  306. Often, USB‑C is reversible so you can’t plug it in upside down.
  307. The fact that cAPTCHA stands for a test to tell computers and humans apart.
  308. Interestingly, CAPTCHA stands for a test to tell computers and humans apart.
  309. Surprisingly, CAPTCHA stands for a test to tell computers and humans apart.
  310. Remarkably, CAPTCHA stands for a test to tell computers and humans apart.
  311. In fact, CAPTCHA stands for a test to tell computers and humans apart.
  312. Often, The fact that cAPTCHA stands for a test to tell computers and humans apart.
  313. Sometimes, CAPTCHA stands for a test to tell computers and humans apart.
  314. CAPTCHA stands for a test to tell computers and humans apart. — a detail many don’t realize.
  315. Interestingly, CAPTCHA stands for a test to tell computers and humans apart. — a detail many don’t realize.
  316. Surprisingly, CAPTCHA stands for a test to tell computers and humans apart. — a detail many don’t realize.
  317. Remarkably, The fact that cAPTCHA stands for a test to tell computers and humans apart. — a detail many don’t realize.
  318. In fact, CAPTCHA stands for a test to tell computers and humans apart. — a detail many don’t realize.
  319. Often, CAPTCHA stands for a test to tell computers and humans apart. — a detail many don’t realize.
  320. Sometimes, CAPTCHA stands for a test to tell computers and humans apart. — a detail many don’t realize.
  321. CAPTCHA stands for a test to tell computers and humans apart. — and it still holds true.
  322. Interestingly, The fact that cAPTCHA stands for a test to tell computers and humans apart. — and it still holds true.
  323. Surprisingly, CAPTCHA stands for a test to tell computers and humans apart. — and it still holds true.
  324. Remarkably, CAPTCHA stands for a test to tell computers and humans apart. — and it still holds true.
  325. In fact, CAPTCHA stands for a test to tell computers and humans apart. — and it still holds true.
  326. Often, CAPTCHA stands for a test to tell computers and humans apart. — and it still holds true.
  327. Sometimes, The fact that cAPTCHA stands for a test to tell computers and humans apart. — and it still holds true.
  328. CAPTCHA stands for a test to tell computers and humans apart. — a neat bit of trivia.
  329. Interestingly, CAPTCHA stands for a test to tell computers and humans apart. — a neat bit of trivia.
  330. Surprisingly, CAPTCHA stands for a test to tell computers and humans apart. — a neat bit of trivia.
  331. Remarkably, CAPTCHA stands for a test to tell computers and humans apart. — a neat bit of trivia.
  332. In fact, The fact that cAPTCHA stands for a test to tell computers and humans apart. — a neat bit of trivia.
  333. Often, CAPTCHA stands for a test to tell computers and humans apart. — a neat bit of trivia.
  334. Sometimes, CAPTCHA stands for a test to tell computers and humans apart. — a neat bit of trivia.
  335. CAPTCHA stands for a test to tell computers and humans apart.
  336. Interestingly, CAPTCHA stands for a test to tell computers and humans apart.
  337. Surprisingly, The fact that cAPTCHA stands for a test to tell computers and humans apart.
  338. Remarkably, CAPTCHA stands for a test to tell computers and humans apart.
  339. In fact, CAPTCHA stands for a test to tell computers and humans apart.
  340. Often, CAPTCHA stands for a test to tell computers and humans apart.
  341. The fact that emoji originated in Japan in the 1990s before going global.
  342. Interestingly, Emoji originated in Japan in the 1990s before going global.
  343. Surprisingly, Emoji originated in Japan in the 1990s before going global.
  344. Remarkably, Emoji originated in Japan in the 1990s before going global.
  345. In fact, Emoji originated in Japan in the 1990s before going global.
  346. Often, The fact that emoji originated in Japan in the 1990s before going global.
  347. Sometimes, Emoji originated in Japan in the 1990s before going global.
  348. Emoji originated in Japan in the 1990s before going global. — a detail many don’t realize.
  349. Interestingly, Emoji originated in Japan in the 1990s before going global. — a detail many don’t realize.
  350. Surprisingly, Emoji originated in Japan in the 1990s before going global. — a detail many don’t realize.
  351. Remarkably, The fact that emoji originated in Japan in the 1990s before going global. — a detail many don’t realize.
  352. In fact, Emoji originated in Japan in the 1990s before going global. — a detail many don’t realize.
  353. Often, Emoji originated in Japan in the 1990s before going global. — a detail many don’t realize.
  354. Sometimes, Emoji originated in Japan in the 1990s before going global. — a detail many don’t realize.
  355. Emoji originated in Japan in the 1990s before going global. — and it still holds true.
  356. Interestingly, The fact that emoji originated in Japan in the 1990s before going global. — and it still holds true.
  357. Surprisingly, Emoji originated in Japan in the 1990s before going global. — and it still holds true.
  358. Remarkably, Emoji originated in Japan in the 1990s before going global. — and it still holds true.
  359. In fact, Emoji originated in Japan in the 1990s before going global. — and it still holds true.
  360. Often, Emoji originated in Japan in the 1990s before going global. — and it still holds true.
  361. Sometimes, The fact that emoji originated in Japan in the 1990s before going global. — and it still holds true.
  362. Emoji originated in Japan in the 1990s before going global. — a neat bit of trivia.
  363. Interestingly, Emoji originated in Japan in the 1990s before going global. — a neat bit of trivia.
  364. Surprisingly, Emoji originated in Japan in the 1990s before going global. — a neat bit of trivia.
  365. Remarkably, Emoji originated in Japan in the 1990s before going global. — a neat bit of trivia.
  366. In fact, The fact that emoji originated in Japan in the 1990s before going global. — a neat bit of trivia.
  367. Often, Emoji originated in Japan in the 1990s before going global. — a neat bit of trivia.
  368. Sometimes, Emoji originated in Japan in the 1990s before going global. — a neat bit of trivia.
  369. Emoji originated in Japan in the 1990s before going global.
  370. Interestingly, Emoji originated in Japan in the 1990s before going global.
  371. Surprisingly, The fact that emoji originated in Japan in the 1990s before going global.
  372. Remarkably, Emoji originated in Japan in the 1990s before going global.
  373. In fact, Emoji originated in Japan in the 1990s before going global.
  374. Often, Emoji originated in Japan in the 1990s before going global.
  375. The fact that open‑source software powers much of the internet behind the scenes.
  376. Interestingly, Open‑source software powers much of the internet behind the scenes.
  377. Surprisingly, Open‑source software powers much of the internet behind the scenes.
  378. Remarkably, Open‑source software powers much of the internet behind the scenes.
  379. In fact, Open‑source software powers much of the internet behind the scenes.
  380. Often, The fact that open‑source software powers much of the internet behind the scenes.
  381. Sometimes, Open‑source software powers much of the internet behind the scenes.
  382. Open‑source software powers much of the internet behind the scenes. — a detail many don’t realize.
  383. Interestingly, Open‑source software powers much of the internet behind the scenes. — a detail many don’t realize.
  384. Surprisingly, Open‑source software powers much of the internet behind the scenes. — a detail many don’t realize.
  385. Remarkably, The fact that open‑source software powers much of the internet behind the scenes. — a detail many don’t realize.
  386. In fact, Open‑source software powers much of the internet behind the scenes. — a detail many don’t realize.
  387. Often, Open‑source software powers much of the internet behind the scenes. — a detail many don’t realize.
  388. Sometimes, Open‑source software powers much of the internet behind the scenes. — a detail many don’t realize.
  389. Open‑source software powers much of the internet behind the scenes. — and it still holds true.
  390. Interestingly, The fact that open‑source software powers much of the internet behind the scenes. — and it still holds true.
  391. Surprisingly, Open‑source software powers much of the internet behind the scenes. — and it still holds true.
  392. Remarkably, Open‑source software powers much of the internet behind the scenes. — and it still holds true.
  393. In fact, Open‑source software powers much of the internet behind the scenes. — and it still holds true.
  394. Often, Open‑source software powers much of the internet behind the scenes. — and it still holds true.
  395. Sometimes, The fact that open‑source software powers much of the internet behind the scenes. — and it still holds true.
  396. Open‑source software powers much of the internet behind the scenes. — a neat bit of trivia.
  397. Interestingly, Open‑source software powers much of the internet behind the scenes. — a neat bit of trivia.
  398. Surprisingly, Open‑source software powers much of the internet behind the scenes. — a neat bit of trivia.
  399. Remarkably, Open‑source software powers much of the internet behind the scenes. — a neat bit of trivia.
  400. In fact, The fact that open‑source software powers much of the internet behind the scenes. — a neat bit of trivia.
  401. Often, Open‑source software powers much of the internet behind the scenes. — a neat bit of trivia.
  402. Sometimes, Open‑source software powers much of the internet behind the scenes. — a neat bit of trivia.
  403. Open‑source software powers much of the internet behind the scenes.
  404. Interestingly, Open‑source software powers much of the internet behind the scenes.
  405. Surprisingly, The fact that open‑source software powers much of the internet behind the scenes.
  406. Remarkably, Open‑source software powers much of the internet behind the scenes.
  407. In fact, Open‑source software powers much of the internet behind the scenes.
  408. Often, Open‑source software powers much of the internet behind the scenes.
  409. The fact that video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  410. Interestingly, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  411. Surprisingly, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  412. Remarkably, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  413. In fact, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  414. Often, The fact that video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  415. Sometimes, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  416. Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a detail many don’t realize.
  417. Interestingly, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a detail many don’t realize.
  418. Surprisingly, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a detail many don’t realize.
  419. Remarkably, The fact that video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a detail many don’t realize.
  420. In fact, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a detail many don’t realize.
  421. Often, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a detail many don’t realize.
  422. Sometimes, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a detail many don’t realize.
  423. Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — and it still holds true.
  424. Interestingly, The fact that video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — and it still holds true.
  425. Surprisingly, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — and it still holds true.
  426. Remarkably, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — and it still holds true.
  427. In fact, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — and it still holds true.
  428. Often, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — and it still holds true.
  429. Sometimes, The fact that video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — and it still holds true.
  430. Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a neat bit of trivia.
  431. Interestingly, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a neat bit of trivia.
  432. Surprisingly, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a neat bit of trivia.
  433. Remarkably, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a neat bit of trivia.
  434. In fact, The fact that video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a neat bit of trivia.
  435. Often, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a neat bit of trivia.
  436. Sometimes, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory. — a neat bit of trivia.
  437. Video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  438. Interestingly, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  439. Surprisingly, The fact that video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  440. Remarkably, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  441. In fact, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  442. Often, Video game cartridges used ‘mappers’ to squeeze more features into tiny memory.
  443. The fact that some satellites use ion thrusters that sip fuel and fire for months.
  444. Interestingly, Some satellites use ion thrusters that sip fuel and fire for months.
  445. Surprisingly, Some satellites use ion thrusters that sip fuel and fire for months.
  446. Remarkably, Some satellites use ion thrusters that sip fuel and fire for months.
  447. In fact, Some satellites use ion thrusters that sip fuel and fire for months.
  448. Often, The fact that some satellites use ion thrusters that sip fuel and fire for months.
  449. Sometimes, Some satellites use ion thrusters that sip fuel and fire for months.
  450. Some satellites use ion thrusters that sip fuel and fire for months. — a detail many don’t realize.
  451. Interestingly, Some satellites use ion thrusters that sip fuel and fire for months. — a detail many don’t realize.
  452. Surprisingly, Some satellites use ion thrusters that sip fuel and fire for months. — a detail many don’t realize.
  453. Remarkably, The fact that some satellites use ion thrusters that sip fuel and fire for months. — a detail many don’t realize.
  454. In fact, Some satellites use ion thrusters that sip fuel and fire for months. — a detail many don’t realize.
  455. Often, Some satellites use ion thrusters that sip fuel and fire for months. — a detail many don’t realize.
  456. Sometimes, Some satellites use ion thrusters that sip fuel and fire for months. — a detail many don’t realize.
  457. Some satellites use ion thrusters that sip fuel and fire for months. — and it still holds true.
  458. Interestingly, The fact that some satellites use ion thrusters that sip fuel and fire for months. — and it still holds true.
  459. Surprisingly, Some satellites use ion thrusters that sip fuel and fire for months. — and it still holds true.
  460. Remarkably, Some satellites use ion thrusters that sip fuel and fire for months. — and it still holds true.
  461. In fact, Some satellites use ion thrusters that sip fuel and fire for months. — and it still holds true.
  462. Often, Some satellites use ion thrusters that sip fuel and fire for months. — and it still holds true.
  463. Sometimes, The fact that some satellites use ion thrusters that sip fuel and fire for months. — and it still holds true.
  464. Some satellites use ion thrusters that sip fuel and fire for months. — a neat bit of trivia.
  465. Interestingly, Some satellites use ion thrusters that sip fuel and fire for months. — a neat bit of trivia.
  466. Surprisingly, Some satellites use ion thrusters that sip fuel and fire for months. — a neat bit of trivia.
  467. Remarkably, Some satellites use ion thrusters that sip fuel and fire for months. — a neat bit of trivia.
  468. In fact, The fact that some satellites use ion thrusters that sip fuel and fire for months. — a neat bit of trivia.
  469. Often, Some satellites use ion thrusters that sip fuel and fire for months. — a neat bit of trivia.
  470. Sometimes, Some satellites use ion thrusters that sip fuel and fire for months. — a neat bit of trivia.
  471. Some satellites use ion thrusters that sip fuel and fire for months.
  472. Interestingly, Some satellites use ion thrusters that sip fuel and fire for months.
  473. Surprisingly, The fact that some satellites use ion thrusters that sip fuel and fire for months.
  474. Remarkably, Some satellites use ion thrusters that sip fuel and fire for months.
  475. In fact, Some satellites use ion thrusters that sip fuel and fire for months.
  476. Often, Some satellites use ion thrusters that sip fuel and fire for months.
  477. The fact that modern smartphones combine sensors that once needed whole labs of gear.
  478. Interestingly, Modern smartphones combine sensors that once needed whole labs of gear.
  479. Surprisingly, Modern smartphones combine sensors that once needed whole labs of gear.
  480. Remarkably, Modern smartphones combine sensors that once needed whole labs of gear.
  481. In fact, Modern smartphones combine sensors that once needed whole labs of gear.
  482. Often, The fact that modern smartphones combine sensors that once needed whole labs of gear.
  483. Sometimes, Modern smartphones combine sensors that once needed whole labs of gear.
  484. Modern smartphones combine sensors that once needed whole labs of gear. — a detail many don’t realize.
  485. Interestingly, Modern smartphones combine sensors that once needed whole labs of gear. — a detail many don’t realize.
  486. Surprisingly, Modern smartphones combine sensors that once needed whole labs of gear. — a detail many don’t realize.
  487. Remarkably, The fact that modern smartphones combine sensors that once needed whole labs of gear. — a detail many don’t realize.
  488. In fact, Modern smartphones combine sensors that once needed whole labs of gear. — a detail many don’t realize.
  489. Often, Modern smartphones combine sensors that once needed whole labs of gear. — a detail many don’t realize.
  490. Sometimes, Modern smartphones combine sensors that once needed whole labs of gear. — a detail many don’t realize.
  491. Modern smartphones combine sensors that once needed whole labs of gear. — and it still holds true.
  492. Interestingly, The fact that modern smartphones combine sensors that once needed whole labs of gear. — and it still holds true.
  493. Surprisingly, Modern smartphones combine sensors that once needed whole labs of gear. — and it still holds true.
  494. Remarkably, Modern smartphones combine sensors that once needed whole labs of gear. — and it still holds true.
  495. In fact, Modern smartphones combine sensors that once needed whole labs of gear. — and it still holds true.
  496. Often, Modern smartphones combine sensors that once needed whole labs of gear. — and it still holds true.
  497. Sometimes, The fact that modern smartphones combine sensors that once needed whole labs of gear. — and it still holds true.
  498. Modern smartphones combine sensors that once needed whole labs of gear. — a neat bit of trivia.
  499. Interestingly, Modern smartphones combine sensors that once needed whole labs of gear. — a neat bit of trivia.
  500. Surprisingly, Modern smartphones combine sensors that once needed whole labs of gear. — a neat bit of trivia.
  501. Remarkably, Modern smartphones combine sensors that once needed whole labs of gear. — a neat bit of trivia.
  502. In fact, The fact that modern smartphones combine sensors that once needed whole labs of gear. — a neat bit of trivia.
  503. Often, Modern smartphones combine sensors that once needed whole labs of gear. — a neat bit of trivia.
  504. Sometimes, Modern smartphones combine sensors that once needed whole labs of gear. — a neat bit of trivia.
  505. Modern smartphones combine sensors that once needed whole labs of gear.
  506. Interestingly, Modern smartphones combine sensors that once needed whole labs of gear.
  507. Surprisingly, The fact that modern smartphones combine sensors that once needed whole labs of gear.
  508. Remarkably, Modern smartphones combine sensors that once needed whole labs of gear.
  509. In fact, Modern smartphones combine sensors that once needed whole labs of gear.
  510. Often, Modern smartphones combine sensors that once needed whole labs of gear.
  511. The fact that 3D printing can make organs’ scaffolds that cells can grow on.
  512. Interestingly, 3D printing can make organs’ scaffolds that cells can grow on.
  513. Surprisingly, 3D printing can often make organs’ scaffolds that cells can often grow on.
  514. Remarkably, 3D printing can make organs’ scaffolds that cells can grow on.
  515. In fact, 3D printing can make organs’ scaffolds that cells can grow on.
  516. Often, The fact that 3D printing can make organs’ scaffolds that cells can grow on.
  517. Sometimes, 3D printing can often make organs’ scaffolds that cells can often grow on.
  518. 3D printing can make organs’ scaffolds that cells can grow on. — a detail many don’t realize.
  519. Interestingly, 3D printing can make organs’ scaffolds that cells can grow on. — a detail many don’t realize.
  520. Surprisingly, 3D printing can make organs’ scaffolds that cells can grow on. — a detail many don’t realize.
  521. Remarkably, The fact that 3D printing can often make organs’ scaffolds that cells can often grow on. — a detail many don’t realize.
  522. In fact, 3D printing can make organs’ scaffolds that cells can grow on. — a detail many don’t realize.
  523. Often, 3D printing can make organs’ scaffolds that cells can grow on. — a detail many don’t realize.
  524. Sometimes, 3D printing can make organs’ scaffolds that cells can grow on. — a detail many don’t realize.
  525. 3D printing can often make organs’ scaffolds that cells can often grow on. — and it still holds true.
  526. Interestingly, The fact that 3D printing can make organs’ scaffolds that cells can grow on. — and it still holds true.
  527. Surprisingly, 3D printing can make organs’ scaffolds that cells can grow on. — and it still holds true.
  528. Remarkably, 3D printing can make organs’ scaffolds that cells can grow on. — and it still holds true.
  529. In fact, 3D printing can often make organs’ scaffolds that cells can often grow on. — and it still holds true.
  530. Often, 3D printing can make organs’ scaffolds that cells can grow on. — and it still holds true.
  531. Sometimes, The fact that 3D printing can make organs’ scaffolds that cells can grow on. — and it still holds true.
  532. 3D printing can make organs’ scaffolds that cells can grow on. — a neat bit of trivia.
  533. Interestingly, 3D printing can often make organs’ scaffolds that cells can often grow on. — a neat bit of trivia.
  534. Surprisingly, 3D printing can make organs’ scaffolds that cells can grow on. — a neat bit of trivia.
  535. Remarkably, 3D printing can make organs’ scaffolds that cells can grow on. — a neat bit of trivia.
  536. In fact, The fact that 3D printing can make organs’ scaffolds that cells can grow on. — a neat bit of trivia.
  537. Often, 3D printing can often make organs’ scaffolds that cells can often grow on. — a neat bit of trivia.
  538. Sometimes, 3D printing can make organs’ scaffolds that cells can grow on. — a neat bit of trivia.
  539. 3D printing can make organs’ scaffolds that cells can grow on.
  540. Interestingly, 3D printing can make organs’ scaffolds that cells can grow on.
  541. Surprisingly, The fact that 3D printing can often make organs’ scaffolds that cells can often grow on.
  542. Remarkably, 3D printing can make organs’ scaffolds that cells can grow on.
  543. In fact, 3D printing can make organs’ scaffolds that cells can grow on.
  544. Often, 3D printing can make organs’ scaffolds that cells can grow on.
  545. The fact that graphene is actually a single layer of carbon atoms with remarkable strength.
  546. Interestingly, Graphene is a single layer of carbon atoms with remarkable strength.
  547. Surprisingly, Graphene is a single layer of carbon atoms with remarkable strength.
  548. Remarkably, Graphene is a single layer of carbon atoms with remarkable strength.
  549. In fact, Graphene is actually a single layer of carbon atoms with remarkable strength.
  550. Often, The fact that graphene is a single layer of carbon atoms with remarkable strength.
  551. Sometimes, Graphene is a single layer of carbon atoms with remarkable strength.
  552. Graphene is a single layer of carbon atoms with remarkable strength. — a detail many don’t realize.
  553. Interestingly, Graphene is actually a single layer of carbon atoms with remarkable strength. — a detail many don’t realize.
  554. Surprisingly, Graphene is a single layer of carbon atoms with remarkable strength. — a detail many don’t realize.
  555. Remarkably, The fact that graphene is a single layer of carbon atoms with remarkable strength. — a detail many don’t realize.
  556. In fact, Graphene is a single layer of carbon atoms with remarkable strength. — a detail many don’t realize.
  557. Often, Graphene is actually a single layer of carbon atoms with remarkable strength. — a detail many don’t realize.
  558. Sometimes, Graphene is a single layer of carbon atoms with remarkable strength. — a detail many don’t realize.
  559. Graphene is a single layer of carbon atoms with remarkable strength. — and it still holds true.
  560. Interestingly, The fact that graphene is a single layer of carbon atoms with remarkable strength. — and it still holds true.
  561. Surprisingly, Graphene is actually a single layer of carbon atoms with remarkable strength. — and it still holds true.
  562. Remarkably, Graphene is a single layer of carbon atoms with remarkable strength. — and it still holds true.
  563. In fact, Graphene is a single layer of carbon atoms with remarkable strength. — and it still holds true.
  564. Often, Graphene is a single layer of carbon atoms with remarkable strength. — and it still holds true.
  565. Sometimes, The fact that graphene is actually a single layer of carbon atoms with remarkable strength. — and it still holds true.
  566. Graphene is a single layer of carbon atoms with remarkable strength. — a neat bit of trivia.
  567. Interestingly, Graphene is a single layer of carbon atoms with remarkable strength. — a neat bit of trivia.
  568. Surprisingly, Graphene is a single layer of carbon atoms with remarkable strength. — a neat bit of trivia.
  569. Remarkably, Graphene is actually a single layer of carbon atoms with remarkable strength. — a neat bit of trivia.
  570. In fact, The fact that graphene is a single layer of carbon atoms with remarkable strength. — a neat bit of trivia.
  571. Often, Graphene is a single layer of carbon atoms with remarkable strength. — a neat bit of trivia.
  572. Sometimes, Graphene is a single layer of carbon atoms with remarkable strength. — a neat bit of trivia.
  573. Graphene is actually a single layer of carbon atoms with remarkable strength.
  574. Interestingly, Graphene is a single layer of carbon atoms with remarkable strength.
  575. Surprisingly, The fact that graphene is a single layer of carbon atoms with remarkable strength.
  576. Remarkably, Graphene is a single layer of carbon atoms with remarkable strength.
  577. In fact, Graphene is actually a single layer of carbon atoms with remarkable strength.
  578. Often, Graphene is a single layer of carbon atoms with remarkable strength.
  579. The fact that gPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  580. Interestingly, GPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  581. Surprisingly, GPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  582. Remarkably, GPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  583. In fact, GPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  584. Often, The fact that gPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  585. Sometimes, GPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  586. GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a detail many don’t realize.
  587. Interestingly, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a detail many don’t realize.
  588. Surprisingly, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a detail many don’t realize.
  589. Remarkably, The fact that gPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a detail many don’t realize.
  590. In fact, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a detail many don’t realize.
  591. Often, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a detail many don’t realize.
  592. Sometimes, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a detail many don’t realize.
  593. GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — and it still holds true.
  594. Interestingly, The fact that gPS needs relativity corrections; clocks in orbit tick differently than on Earth. — and it still holds true.
  595. Surprisingly, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — and it still holds true.
  596. Remarkably, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — and it still holds true.
  597. In fact, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — and it still holds true.
  598. Often, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — and it still holds true.
  599. Sometimes, The fact that gPS needs relativity corrections; clocks in orbit tick differently than on Earth. — and it still holds true.
  600. GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a neat bit of trivia.
  601. Interestingly, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a neat bit of trivia.
  602. Surprisingly, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a neat bit of trivia.
  603. Remarkably, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a neat bit of trivia.
  604. In fact, The fact that gPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a neat bit of trivia.
  605. Often, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a neat bit of trivia.
  606. Sometimes, GPS needs relativity corrections; clocks in orbit tick differently than on Earth. — a neat bit of trivia.
  607. GPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  608. Interestingly, GPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  609. Surprisingly, The fact that gPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  610. Remarkably, GPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  611. In fact, GPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  612. Often, GPS needs relativity corrections; clocks in orbit tick differently than on Earth.
  613. The fact that typewriter layouts influenced today’s keyboards, including QWERTY.
  614. Interestingly, Typewriter layouts influenced today’s keyboards, including QWERTY.
  615. Surprisingly, Typewriter layouts influenced today’s keyboards, including QWERTY.
  616. Remarkably, Typewriter layouts influenced today’s keyboards, including QWERTY.
  617. In fact, Typewriter layouts influenced today’s keyboards, including QWERTY.
  618. Often, The fact that typewriter layouts influenced today’s keyboards, including QWERTY.
  619. Sometimes, Typewriter layouts influenced today’s keyboards, including QWERTY.
  620. Typewriter layouts influenced today’s keyboards, including QWERTY. — a detail many don’t realize.
  621. Interestingly, Typewriter layouts influenced today’s keyboards, including QWERTY. — a detail many don’t realize.
  622. Surprisingly, Typewriter layouts influenced today’s keyboards, including QWERTY. — a detail many don’t realize.
  623. Remarkably, The fact that typewriter layouts influenced today’s keyboards, including QWERTY. — a detail many don’t realize.
  624. In fact, Typewriter layouts influenced today’s keyboards, including QWERTY. — a detail many don’t realize.
  625. Often, Typewriter layouts influenced today’s keyboards, including QWERTY. — a detail many don’t realize.
  626. Sometimes, Typewriter layouts influenced today’s keyboards, including QWERTY. — a detail many don’t realize.
  627. Typewriter layouts influenced today’s keyboards, including QWERTY. — and it still holds true.
  628. Interestingly, The fact that typewriter layouts influenced today’s keyboards, including QWERTY. — and it still holds true.
  629. Surprisingly, Typewriter layouts influenced today’s keyboards, including QWERTY. — and it still holds true.
  630. Remarkably, Typewriter layouts influenced today’s keyboards, including QWERTY. — and it still holds true.
  631. In fact, Typewriter layouts influenced today’s keyboards, including QWERTY. — and it still holds true.
  632. Often, Typewriter layouts influenced today’s keyboards, including QWERTY. — and it still holds true.
  633. Sometimes, The fact that typewriter layouts influenced today’s keyboards, including QWERTY. — and it still holds true.
  634. Typewriter layouts influenced today’s keyboards, including QWERTY. — a neat bit of trivia.
  635. Interestingly, Typewriter layouts influenced today’s keyboards, including QWERTY. — a neat bit of trivia.
  636. Surprisingly, Typewriter layouts influenced today’s keyboards, including QWERTY. — a neat bit of trivia.
  637. Remarkably, Typewriter layouts influenced today’s keyboards, including QWERTY. — a neat bit of trivia.
  638. In fact, The fact that typewriter layouts influenced today’s keyboards, including QWERTY. — a neat bit of trivia.
  639. Often, Typewriter layouts influenced today’s keyboards, including QWERTY. — a neat bit of trivia.
  640. Sometimes, Typewriter layouts influenced today’s keyboards, including QWERTY. — a neat bit of trivia.
  641. Typewriter layouts influenced today’s keyboards, including QWERTY.
  642. Interestingly, Typewriter layouts influenced today’s keyboards, including QWERTY.
  643. Surprisingly, The fact that typewriter layouts influenced today’s keyboards, including QWERTY.
  644. Remarkably, Typewriter layouts influenced today’s keyboards, including QWERTY.
  645. In fact, Typewriter layouts influenced today’s keyboards, including QWERTY.
  646. Often, Typewriter layouts influenced today’s keyboards, including QWERTY.
  647. The fact that the first webcam watched a coffee pot so researchers knew when it was full.
  648. Interestingly, The first webcam watched a coffee pot so researchers knew when it was full.
  649. Surprisingly, The first webcam watched a coffee pot so researchers knew when it was full.
  650. Remarkably, The first webcam watched a coffee pot so researchers knew when it was full.
  651. In fact, The first webcam watched a coffee pot so researchers knew when it was full.
  652. Often, The fact that the first webcam watched a coffee pot so researchers knew when it was full.
  653. Sometimes, The first webcam watched a coffee pot so researchers knew when it was full.
  654. The first webcam watched a coffee pot so researchers knew when it was full. — a detail many don’t realize.
  655. Interestingly, The first webcam watched a coffee pot so researchers knew when it was full. — a detail many don’t realize.
  656. Surprisingly, The first webcam watched a coffee pot so researchers knew when it was full. — a detail many don’t realize.
  657. Remarkably, The fact that the first webcam watched a coffee pot so researchers knew when it was full. — a detail many don’t realize.
  658. In fact, The first webcam watched a coffee pot so researchers knew when it was full. — a detail many don’t realize.
  659. Often, The first webcam watched a coffee pot so researchers knew when it was full. — a detail many don’t realize.
  660. Sometimes, The first webcam watched a coffee pot so researchers knew when it was full. — a detail many don’t realize.
  661. The first webcam watched a coffee pot so researchers knew when it was full. — and it still holds true.
  662. Interestingly, The fact that the first webcam watched a coffee pot so researchers knew when it was full. — and it still holds true.
  663. Surprisingly, The first webcam watched a coffee pot so researchers knew when it was full. — and it still holds true.
  664. Remarkably, The first webcam watched a coffee pot so researchers knew when it was full. — and it still holds true.
  665. In fact, The first webcam watched a coffee pot so researchers knew when it was full. — and it still holds true.
  666. Often, The first webcam watched a coffee pot so researchers knew when it was full. — and it still holds true.
  667. Sometimes, The fact that the first webcam watched a coffee pot so researchers knew when it was full. — and it still holds true.
  668. The first webcam watched a coffee pot so researchers knew when it was full. — a neat bit of trivia.
  669. Interestingly, The first webcam watched a coffee pot so researchers knew when it was full. — a neat bit of trivia.
  670. Surprisingly, The first webcam watched a coffee pot so researchers knew when it was full. — a neat bit of trivia.
  671. Remarkably, The first webcam watched a coffee pot so researchers knew when it was full. — a neat bit of trivia.
  672. In fact, The fact that the first webcam watched a coffee pot so researchers knew when it was full. — a neat bit of trivia.
  673. Often, The first webcam watched a coffee pot so researchers knew when it was full. — a neat bit of trivia.
  674. Sometimes, The first webcam watched a coffee pot so researchers knew when it was full. — a neat bit of trivia.
  675. The first webcam watched a coffee pot so researchers knew when it was full.
  676. Interestingly, The first webcam watched a coffee pot so researchers knew when it was full.
  677. Surprisingly, The fact that the first webcam watched a coffee pot so researchers knew when it was full.
  678. Remarkably, The first webcam watched a coffee pot so researchers knew when it was full.
  679. In fact, The first webcam watched a coffee pot so researchers knew when it was full.
  680. Often, The first webcam watched a coffee pot so researchers knew when it was full.
  681. The fact that moore’s Law tracked decades of exponential transistor growth on chips.
  682. Interestingly, Moore’s Law tracked decades of exponential transistor growth on chips.
  683. Surprisingly, Moore’s Law tracked decades of exponential transistor growth on chips.
  684. Remarkably, Moore’s Law tracked decades of exponential transistor growth on chips.
  685. In fact, Moore’s Law tracked decades of exponential transistor growth on chips.
  686. Often, The fact that moore’s Law tracked decades of exponential transistor growth on chips.
  687. Sometimes, Moore’s Law tracked decades of exponential transistor growth on chips.
  688. Moore’s Law tracked decades of exponential transistor growth on chips. — a detail many don’t realize.
  689. Interestingly, Moore’s Law tracked decades of exponential transistor growth on chips. — a detail many don’t realize.
  690. Surprisingly, Moore’s Law tracked decades of exponential transistor growth on chips. — a detail many don’t realize.
  691. Remarkably, The fact that moore’s Law tracked decades of exponential transistor growth on chips. — a detail many don’t realize.
  692. In fact, Moore’s Law tracked decades of exponential transistor growth on chips. — a detail many don’t realize.
  693. Often, Moore’s Law tracked decades of exponential transistor growth on chips. — a detail many don’t realize.
  694. Sometimes, Moore’s Law tracked decades of exponential transistor growth on chips. — a detail many don’t realize.
  695. Moore’s Law tracked decades of exponential transistor growth on chips. — and it still holds true.
  696. Interestingly, The fact that moore’s Law tracked decades of exponential transistor growth on chips. — and it still holds true.
  697. Surprisingly, Moore’s Law tracked decades of exponential transistor growth on chips. — and it still holds true.
  698. Remarkably, Moore’s Law tracked decades of exponential transistor growth on chips. — and it still holds true.
  699. In fact, Moore’s Law tracked decades of exponential transistor growth on chips. — and it still holds true.
  700. Often, Moore’s Law tracked decades of exponential transistor growth on chips. — and it still holds true.
  701. Sometimes, The fact that moore’s Law tracked decades of exponential transistor growth on chips. — and it still holds true.
  702. Moore’s Law tracked decades of exponential transistor growth on chips. — a neat bit of trivia.
  703. Interestingly, Moore’s Law tracked decades of exponential transistor growth on chips. — a neat bit of trivia.
  704. Surprisingly, Moore’s Law tracked decades of exponential transistor growth on chips. — a neat bit of trivia.
  705. Remarkably, Moore’s Law tracked decades of exponential transistor growth on chips. — a neat bit of trivia.
  706. In fact, The fact that moore’s Law tracked decades of exponential transistor growth on chips. — a neat bit of trivia.
  707. Often, Moore’s Law tracked decades of exponential transistor growth on chips. — a neat bit of trivia.
  708. Sometimes, Moore’s Law tracked decades of exponential transistor growth on chips. — a neat bit of trivia.
  709. Moore’s Law tracked decades of exponential transistor growth on chips.
  710. Interestingly, Moore’s Law tracked decades of exponential transistor growth on chips.
  711. Surprisingly, The fact that moore’s Law tracked decades of exponential transistor growth on chips.
  712. Remarkably, Moore’s Law tracked decades of exponential transistor growth on chips.
  713. In fact, Moore’s Law tracked decades of exponential transistor growth on chips.
  714. Often, Moore’s Law tracked decades of exponential transistor growth on chips.
  715. The fact that cAPS LOCK was once a physical lever on typewriters for all‑caps.
  716. Interestingly, CAPS LOCK was once a physical lever on typewriters for all‑caps.
  717. Surprisingly, CAPS LOCK was once a physical lever on typewriters for all‑caps.
  718. Remarkably, CAPS LOCK was once a physical lever on typewriters for all‑caps.
  719. In fact, CAPS LOCK was once a physical lever on typewriters for all‑caps.
  720. Often, The fact that cAPS LOCK was once a physical lever on typewriters for all‑caps.
  721. Sometimes, CAPS LOCK was once a physical lever on typewriters for all‑caps.
  722. CAPS LOCK was once a physical lever on typewriters for all‑caps. — a detail many don’t realize.
  723. Interestingly, CAPS LOCK was once a physical lever on typewriters for all‑caps. — a detail many don’t realize.
  724. Surprisingly, CAPS LOCK was once a physical lever on typewriters for all‑caps. — a detail many don’t realize.
  725. Remarkably, The fact that cAPS LOCK was once a physical lever on typewriters for all‑caps. — a detail many don’t realize.
  726. In fact, CAPS LOCK was once a physical lever on typewriters for all‑caps. — a detail many don’t realize.
  727. Often, CAPS LOCK was once a physical lever on typewriters for all‑caps. — a detail many don’t realize.
  728. Sometimes, CAPS LOCK was once a physical lever on typewriters for all‑caps. — a detail many don’t realize.
  729. CAPS LOCK was once a physical lever on typewriters for all‑caps. — and it still holds true.
  730. Interestingly, The fact that cAPS LOCK was once a physical lever on typewriters for all‑caps. — and it still holds true.
  731. Surprisingly, CAPS LOCK was once a physical lever on typewriters for all‑caps. — and it still holds true.
  732. Remarkably, CAPS LOCK was once a physical lever on typewriters for all‑caps. — and it still holds true.
  733. In fact, CAPS LOCK was once a physical lever on typewriters for all‑caps. — and it still holds true.
  734. Often, CAPS LOCK was once a physical lever on typewriters for all‑caps. — and it still holds true.
  735. Sometimes, The fact that cAPS LOCK was once a physical lever on typewriters for all‑caps. — and it still holds true.
  736. CAPS LOCK was once a physical lever on typewriters for all‑caps. — a neat bit of trivia.
  737. Interestingly, CAPS LOCK was once a physical lever on typewriters for all‑caps. — a neat bit of trivia.
  738. Surprisingly, CAPS LOCK was once a physical lever on typewriters for all‑caps. — a neat bit of trivia.
  739. Remarkably, CAPS LOCK was once a physical lever on typewriters for all‑caps. — a neat bit of trivia.
  740. In fact, The fact that cAPS LOCK was once a physical lever on typewriters for all‑caps. — a neat bit of trivia.
  741. Often, CAPS LOCK was once a physical lever on typewriters for all‑caps. — a neat bit of trivia.
  742. Sometimes, CAPS LOCK was once a physical lever on typewriters for all‑caps. — a neat bit of trivia.
  743. CAPS LOCK was once a physical lever on typewriters for all‑caps.
  744. Interestingly, CAPS LOCK was once a physical lever on typewriters for all‑caps.
  745. Surprisingly, The fact that cAPS LOCK was once a physical lever on typewriters for all‑caps.
  746. Remarkably, CAPS LOCK was once a physical lever on typewriters for all‑caps.
  747. In fact, CAPS LOCK was once a physical lever on typewriters for all‑caps.
  748. Often, CAPS LOCK was once a physical lever on typewriters for all‑caps.
  749. The fact that the Apollo Guidance Computer ran with tiny memory compared to phones today.
  750. Interestingly, The Apollo Guidance Computer ran with tiny memory compared to phones today.
  751. Surprisingly, The Apollo Guidance Computer ran with tiny memory compared to phones today.
  752. Remarkably, The Apollo Guidance Computer ran with tiny memory compared to phones today.
  753. In fact, The Apollo Guidance Computer ran with tiny memory compared to phones today.
  754. Often, The fact that the Apollo Guidance Computer ran with tiny memory compared to phones today.
  755. Sometimes, The Apollo Guidance Computer ran with tiny memory compared to phones today.
  756. The Apollo Guidance Computer ran with tiny memory compared to phones today. — a detail many don’t realize.
  757. Interestingly, The Apollo Guidance Computer ran with tiny memory compared to phones today. — a detail many don’t realize.
  758. Surprisingly, The Apollo Guidance Computer ran with tiny memory compared to phones today. — a detail many don’t realize.
  759. Remarkably, The fact that the Apollo Guidance Computer ran with tiny memory compared to phones today. — a detail many don’t realize.
  760. In fact, The Apollo Guidance Computer ran with tiny memory compared to phones today. — a detail many don’t realize.
  761. Often, The Apollo Guidance Computer ran with tiny memory compared to phones today. — a detail many don’t realize.
  762. Sometimes, The Apollo Guidance Computer ran with tiny memory compared to phones today. — a detail many don’t realize.
  763. The Apollo Guidance Computer ran with tiny memory compared to phones today. — and it still holds true.
  764. Interestingly, The fact that the Apollo Guidance Computer ran with tiny memory compared to phones today. — and it still holds true.
  765. Surprisingly, The Apollo Guidance Computer ran with tiny memory compared to phones today. — and it still holds true.
  766. Remarkably, The Apollo Guidance Computer ran with tiny memory compared to phones today. — and it still holds true.
  767. In fact, The Apollo Guidance Computer ran with tiny memory compared to phones today. — and it still holds true.
  768. Often, The Apollo Guidance Computer ran with tiny memory compared to phones today. — and it still holds true.
  769. Sometimes, The fact that the Apollo Guidance Computer ran with tiny memory compared to phones today. — and it still holds true.
  770. The Apollo Guidance Computer ran with tiny memory compared to phones today. — a neat bit of trivia.
  771. Interestingly, The Apollo Guidance Computer ran with tiny memory compared to phones today. — a neat bit of trivia.
  772. Surprisingly, The Apollo Guidance Computer ran with tiny memory compared to phones today. — a neat bit of trivia.
  773. Remarkably, The Apollo Guidance Computer ran with tiny memory compared to phones today. — a neat bit of trivia.
  774. In fact, The fact that the Apollo Guidance Computer ran with tiny memory compared to phones today. — a neat bit of trivia.
  775. Often, The Apollo Guidance Computer ran with tiny memory compared to phones today. — a neat bit of trivia.
  776. Sometimes, The Apollo Guidance Computer ran with tiny memory compared to phones today. — a neat bit of trivia.
  777. The Apollo Guidance Computer ran with tiny memory compared to phones today.
  778. Interestingly, The Apollo Guidance Computer ran with tiny memory compared to phones today.
  779. Surprisingly, The fact that the Apollo Guidance Computer ran with tiny memory compared to phones today.
  780. Remarkably, The Apollo Guidance Computer ran with tiny memory compared to phones today.
  781. In fact, The Apollo Guidance Computer ran with tiny memory compared to phones today.
  782. Often, The Apollo Guidance Computer ran with tiny memory compared to phones today.
  783. The fact that cDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  784. Interestingly, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  785. Surprisingly, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  786. Remarkably, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  787. In fact, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  788. Often, The fact that cDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  789. Sometimes, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  790. CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a detail many don’t realize.
  791. Interestingly, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a detail many don’t realize.
  792. Surprisingly, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a detail many don’t realize.
  793. Remarkably, The fact that cDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a detail many don’t realize.
  794. In fact, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a detail many don’t realize.
  795. Often, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a detail many don’t realize.
  796. Sometimes, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a detail many don’t realize.
  797. CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — and it still holds true.
  798. Interestingly, The fact that cDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — and it still holds true.
  799. Surprisingly, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — and it still holds true.
  800. Remarkably, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — and it still holds true.
  801. In fact, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — and it still holds true.
  802. Often, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — and it still holds true.
  803. Sometimes, The fact that cDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — and it still holds true.
  804. CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a neat bit of trivia.
  805. Interestingly, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a neat bit of trivia.
  806. Surprisingly, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a neat bit of trivia.
  807. Remarkably, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a neat bit of trivia.
  808. In fact, The fact that cDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a neat bit of trivia.
  809. Often, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a neat bit of trivia.
  810. Sometimes, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony. — a neat bit of trivia.
  811. CDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  812. Interestingly, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  813. Surprisingly, The fact that cDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  814. Remarkably, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  815. In fact, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  816. Often, CDs were designed to hold a long recording of Beethoven’s Ninth Symphony.
  817. The fact that touchscreens existed decades before smartphones popularized them.
  818. Interestingly, Touchscreens existed decades before smartphones popularized them.
  819. Surprisingly, Touchscreens existed decades before smartphones popularized them.
  820. Remarkably, Touchscreens existed decades before smartphones popularized them.
  821. In fact, Touchscreens existed decades before smartphones popularized them.
  822. Often, The fact that touchscreens existed decades before smartphones popularized them.
  823. Sometimes, Touchscreens existed decades before smartphones popularized them.
  824. Touchscreens existed decades before smartphones popularized them. — a detail many don’t realize.
  825. Interestingly, Touchscreens existed decades before smartphones popularized them. — a detail many don’t realize.
  826. Surprisingly, Touchscreens existed decades before smartphones popularized them. — a detail many don’t realize.
  827. Remarkably, The fact that touchscreens existed decades before smartphones popularized them. — a detail many don’t realize.
  828. In fact, Touchscreens existed decades before smartphones popularized them. — a detail many don’t realize.
  829. Often, Touchscreens existed decades before smartphones popularized them. — a detail many don’t realize.
  830. Sometimes, Touchscreens existed decades before smartphones popularized them. — a detail many don’t realize.
  831. Touchscreens existed decades before smartphones popularized them. — and it still holds true.
  832. Interestingly, The fact that touchscreens existed decades before smartphones popularized them. — and it still holds true.
  833. Surprisingly, Touchscreens existed decades before smartphones popularized them. — and it still holds true.
  834. Remarkably, Touchscreens existed decades before smartphones popularized them. — and it still holds true.
  835. In fact, Touchscreens existed decades before smartphones popularized them. — and it still holds true.
  836. Often, Touchscreens existed decades before smartphones popularized them. — and it still holds true.
  837. Sometimes, The fact that touchscreens existed decades before smartphones popularized them. — and it still holds true.
  838. Touchscreens existed decades before smartphones popularized them. — a neat bit of trivia.
  839. Interestingly, Touchscreens existed decades before smartphones popularized them. — a neat bit of trivia.
  840. Surprisingly, Touchscreens existed decades before smartphones popularized them. — a neat bit of trivia.
  841. Remarkably, Touchscreens existed decades before smartphones popularized them. — a neat bit of trivia.
  842. In fact, The fact that touchscreens existed decades before smartphones popularized them. — a neat bit of trivia.
  843. Often, Touchscreens existed decades before smartphones popularized them. — a neat bit of trivia.
  844. Sometimes, Touchscreens existed decades before smartphones popularized them. — a neat bit of trivia.
  845. Touchscreens existed decades before smartphones popularized them.
  846. Interestingly, Touchscreens existed decades before smartphones popularized them.
  847. Surprisingly, The fact that touchscreens existed decades before smartphones popularized them.
  848. Remarkably, Touchscreens existed decades before smartphones popularized them.
  849. In fact, Touchscreens existed decades before smartphones popularized them.
  850. Often, Touchscreens existed decades before smartphones popularized them.
  851. The fact that cD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s.
  852. Interestingly, CD and DVD ‘pits’ are actually microscopic—lasers read them as digital 1s and 0s.
  853. Surprisingly, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s.
  854. Remarkably, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s.
  855. In fact, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s.
  856. Often, The fact that cD and DVD ‘pits’ are actually microscopic—lasers read them as digital 1s and 0s.
  857. Sometimes, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s.
  858. CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — a detail many don’t realize.
  859. Interestingly, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — a detail many don’t realize.
  860. Surprisingly, CD and DVD ‘pits’ are actually microscopic—lasers read them as digital 1s and 0s. — a detail many don’t realize.
  861. Remarkably, The fact that cD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — a detail many don’t realize.
  862. In fact, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — a detail many don’t realize.
  863. Often, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — a detail many don’t realize.
  864. Sometimes, CD and DVD ‘pits’ are actually microscopic—lasers read them as digital 1s and 0s. — a detail many don’t realize.
  865. CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — and it still holds true.
  866. Interestingly, The fact that cD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — and it still holds true.
  867. Surprisingly, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — and it still holds true.
  868. Remarkably, CD and DVD ‘pits’ are actually microscopic—lasers read them as digital 1s and 0s. — and it still holds true.
  869. In fact, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — and it still holds true.
  870. Often, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — and it still holds true.
  871. Sometimes, The fact that cD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — and it still holds true.
  872. CD and DVD ‘pits’ are actually microscopic—lasers read them as digital 1s and 0s. — a neat bit of trivia.
  873. Interestingly, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — a neat bit of trivia.
  874. Surprisingly, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — a neat bit of trivia.
  875. Remarkably, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — a neat bit of trivia.
  876. In fact, The fact that cD and DVD ‘pits’ are actually microscopic—lasers read them as digital 1s and 0s. — a neat bit of trivia.
  877. Often, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — a neat bit of trivia.
  878. Sometimes, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s. — a neat bit of trivia.
  879. CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s.
  880. Interestingly, CD and DVD ‘pits’ are actually microscopic—lasers read them as digital 1s and 0s.
  881. Surprisingly, The fact that cD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s.
  882. Remarkably, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s.
  883. In fact, CD and DVD ‘pits’ are microscopic—lasers read them as digital 1s and 0s.
  884. Often, CD and DVD ‘pits’ are actually microscopic—lasers read them as digital 1s and 0s.
  885. The fact that early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  886. Interestingly, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  887. Surprisingly, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  888. Remarkably, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  889. In fact, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  890. Often, The fact that early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  891. Sometimes, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  892. Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a detail many don’t realize.
  893. Interestingly, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a detail many don’t realize.
  894. Surprisingly, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a detail many don’t realize.
  895. Remarkably, The fact that early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a detail many don’t realize.
  896. In fact, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a detail many don’t realize.
  897. Often, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a detail many don’t realize.
  898. Sometimes, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a detail many don’t realize.
  899. Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — and it still holds true.
  900. Interestingly, The fact that early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — and it still holds true.
  901. Surprisingly, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — and it still holds true.
  902. Remarkably, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — and it still holds true.
  903. In fact, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — and it still holds true.
  904. Often, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — and it still holds true.
  905. Sometimes, The fact that early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — and it still holds true.
  906. Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a neat bit of trivia.
  907. Interestingly, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a neat bit of trivia.
  908. Surprisingly, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a neat bit of trivia.
  909. Remarkably, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a neat bit of trivia.
  910. In fact, The fact that early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a neat bit of trivia.
  911. Often, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a neat bit of trivia.
  912. Sometimes, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym. — a neat bit of trivia.
  913. Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  914. Interestingly, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  915. Surprisingly, The fact that early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  916. Remarkably, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  917. In fact, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  918. Often, Early Wi‑Fi standard was branded ‘Wi‑Fi’ by a marketing firm, not an acronym.
  919. The fact that solid‑state drives have no moving parts, unlike spinning hard drives.
  920. Interestingly, Solid‑state drives have no moving parts, unlike spinning hard drives.
  921. Surprisingly, Solid‑state drives have no moving parts, unlike spinning hard drives.
  922. Remarkably, Solid‑state drives often have no moving parts, unlike spinning hard drives.
  923. In fact, Solid‑state drives have no moving parts, unlike spinning hard drives.
  924. Often, The fact that solid‑state drives have no moving parts, unlike spinning hard drives.
  925. Sometimes, Solid‑state drives have no moving parts, unlike spinning hard drives.
  926. Solid‑state drives often have no moving parts, unlike spinning hard drives. — a detail many don’t realize.
  927. Interestingly, Solid‑state drives have no moving parts, unlike spinning hard drives. — a detail many don’t realize.
  928. Surprisingly, Solid‑state drives have no moving parts, unlike spinning hard drives. — a detail many don’t realize.
  929. Remarkably, The fact that solid‑state drives have no moving parts, unlike spinning hard drives. — a detail many don’t realize.
  930. In fact, Solid‑state drives often have no moving parts, unlike spinning hard drives. — a detail many don’t realize.
  931. Often, Solid‑state drives have no moving parts, unlike spinning hard drives. — a detail many don’t realize.
  932. Sometimes, Solid‑state drives have no moving parts, unlike spinning hard drives. — a detail many don’t realize.
  933. Solid‑state drives have no moving parts, unlike spinning hard drives. — and it still holds true.
  934. Interestingly, The fact that solid‑state drives often have no moving parts, unlike spinning hard drives. — and it still holds true.
  935. Surprisingly, Solid‑state drives have no moving parts, unlike spinning hard drives. — and it still holds true.
  936. Remarkably, Solid‑state drives have no moving parts, unlike spinning hard drives. — and it still holds true.
  937. In fact, Solid‑state drives have no moving parts, unlike spinning hard drives. — and it still holds true.
  938. Often, Solid‑state drives often have no moving parts, unlike spinning hard drives. — and it still holds true.
  939. Sometimes, The fact that solid‑state drives have no moving parts, unlike spinning hard drives. — and it still holds true.
  940. Solid‑state drives have no moving parts, unlike spinning hard drives. — a neat bit of trivia.
  941. Interestingly, Solid‑state drives have no moving parts, unlike spinning hard drives. — a neat bit of trivia.
  942. Surprisingly, Solid‑state drives often have no moving parts, unlike spinning hard drives. — a neat bit of trivia.
  943. Remarkably, Solid‑state drives have no moving parts, unlike spinning hard drives. — a neat bit of trivia.
  944. In fact, The fact that solid‑state drives have no moving parts, unlike spinning hard drives. — a neat bit of trivia.
  945. Often, Solid‑state drives have no moving parts, unlike spinning hard drives. — a neat bit of trivia.
  946. Sometimes, Solid‑state drives often have no moving parts, unlike spinning hard drives. — a neat bit of trivia.
  947. Solid‑state drives have no moving parts, unlike spinning hard drives.
  948. Interestingly, Solid‑state drives have no moving parts, unlike spinning hard drives.
  949. Surprisingly, The fact that solid‑state drives have no moving parts, unlike spinning hard drives.
  950. Remarkably, Solid‑state drives often have no moving parts, unlike spinning hard drives.
  951. In fact, Solid‑state drives have no moving parts, unlike spinning hard drives.
  952. Often, Solid‑state drives have no moving parts, unlike spinning hard drives.
  953. The fact that fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  954. Interestingly, Fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  955. Surprisingly, Fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  956. Remarkably, Fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  957. In fact, Fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  958. Often, The fact that fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  959. Sometimes, Fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  960. Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a detail many don’t realize.
  961. Interestingly, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a detail many don’t realize.
  962. Surprisingly, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a detail many don’t realize.
  963. Remarkably, The fact that fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a detail many don’t realize.
  964. In fact, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a detail many don’t realize.
  965. Often, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a detail many don’t realize.
  966. Sometimes, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a detail many don’t realize.
  967. Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — and it still holds true.
  968. Interestingly, The fact that fiber‑optic cables carry light through hair‑thin glass strands across oceans. — and it still holds true.
  969. Surprisingly, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — and it still holds true.
  970. Remarkably, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — and it still holds true.
  971. In fact, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — and it still holds true.
  972. Often, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — and it still holds true.
  973. Sometimes, The fact that fiber‑optic cables carry light through hair‑thin glass strands across oceans. — and it still holds true.
  974. Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a neat bit of trivia.
  975. Interestingly, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a neat bit of trivia.
  976. Surprisingly, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a neat bit of trivia.
  977. Remarkably, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a neat bit of trivia.
  978. In fact, The fact that fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a neat bit of trivia.
  979. Often, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a neat bit of trivia.
  980. Sometimes, Fiber‑optic cables carry light through hair‑thin glass strands across oceans. — a neat bit of trivia.
  981. Fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  982. Interestingly, Fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  983. Surprisingly, The fact that fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  984. Remarkably, Fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  985. In fact, Fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  986. Often, Fiber‑optic cables carry light through hair‑thin glass strands across oceans.
  987. The fact that cloud computing pools distant servers so apps can scale instantly.
  988. Interestingly, Cloud computing pools distant servers so apps can scale instantly.
  989. Surprisingly, Cloud computing pools distant servers so apps can often scale instantly.
  990. Remarkably, Cloud computing pools distant servers so apps can scale instantly.
  991. In fact, Cloud computing pools distant servers so apps can scale instantly.
  992. Often, The fact that cloud computing pools distant servers so apps can scale instantly.
  993. Sometimes, Cloud computing pools distant servers so apps can often scale instantly.
  994. Cloud computing pools distant servers so apps can scale instantly. — a detail many don’t realize.
  995. Interestingly, Cloud computing pools distant servers so apps can scale instantly. — a detail many don’t realize.
  996. Surprisingly, Cloud computing pools distant servers so apps can scale instantly. — a detail many don’t realize.
  997. Remarkably, The fact that cloud computing pools distant servers so apps can often scale instantly. — a detail many don’t realize.
  998. In fact, Cloud computing pools distant servers so apps can scale instantly. — a detail many don’t realize.
  999. Often, Cloud computing pools distant servers so apps can scale instantly. — a detail many don’t realize.
  1000. Sometimes, Cloud computing pools distant servers so apps can scale instantly. — a detail many don’t realize.

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