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1000 Space Facts

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  1. The fact that venus takes longer to rotate once than to orbit the Sun—its day is actually longer than its year.
  2. Interestingly, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year.
  3. Surprisingly, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year.
  4. Remarkably, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year.
  5. In fact, Venus takes longer to rotate once than to orbit the Sun—its day is actually longer than its year.
  6. Often, The fact that venus takes longer to rotate once than to orbit the Sun—its day is longer than its year.
  7. Sometimes, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year.
  8. Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a detail many don’t realize.
  9. Interestingly, Venus takes longer to rotate once than to orbit the Sun—its day is actually longer than its year. — a detail many don’t realize.
  10. Surprisingly, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a detail many don’t realize.
  11. Remarkably, The fact that venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a detail many don’t realize.
  12. In fact, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a detail many don’t realize.
  13. Often, Venus takes longer to rotate once than to orbit the Sun—its day is actually longer than its year. — a detail many don’t realize.
  14. Sometimes, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a detail many don’t realize.
  15. Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — and it still holds true.
  16. Interestingly, The fact that venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — and it still holds true.
  17. Surprisingly, Venus takes longer to rotate once than to orbit the Sun—its day is actually longer than its year. — and it still holds true.
  18. Remarkably, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — and it still holds true.
  19. In fact, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — and it still holds true.
  20. Often, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — and it still holds true.
  21. Sometimes, The fact that venus takes longer to rotate once than to orbit the Sun—its day is actually longer than its year. — and it still holds true.
  22. Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a neat bit of trivia.
  23. Interestingly, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a neat bit of trivia.
  24. Surprisingly, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a neat bit of trivia.
  25. Remarkably, Venus takes longer to rotate once than to orbit the Sun—its day is actually longer than its year. — a neat bit of trivia.
  26. In fact, The fact that venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a neat bit of trivia.
  27. Often, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a neat bit of trivia.
  28. Sometimes, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year. — a neat bit of trivia.
  29. Venus takes longer to rotate once than to orbit the Sun—its day is actually longer than its year.
  30. Interestingly, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year.
  31. Surprisingly, The fact that venus takes longer to rotate once than to orbit the Sun—its day is longer than its year.
  32. Remarkably, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year.
  33. In fact, Venus takes longer to rotate once than to orbit the Sun—its day is actually longer than its year.
  34. Often, Venus takes longer to rotate once than to orbit the Sun—its day is longer than its year.
  35. The fact that footprints left on the Moon can last for millions of years because there’s no wind or rain.
  36. Interestingly, Footprints left on the Moon can last for millions of years because there’s no wind or rain.
  37. Surprisingly, Footprints left on the Moon can often last for millions of years because there’s no wind or rain.
  38. Remarkably, Footprints left on the Moon can last for millions of years because there’s no wind or rain.
  39. In fact, Footprints left on the Moon can last for millions of years because there’s no wind or rain.
  40. Often, The fact that footprints left on the Moon can last for millions of years because there’s no wind or rain.
  41. Sometimes, Footprints left on the Moon can often last for millions of years because there’s no wind or rain.
  42. Footprints left on the Moon can last for millions of years because there’s no wind or rain. — a detail many don’t realize.
  43. Interestingly, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — a detail many don’t realize.
  44. Surprisingly, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — a detail many don’t realize.
  45. Remarkably, The fact that footprints left on the Moon can often last for millions of years because there’s no wind or rain. — a detail many don’t realize.
  46. In fact, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — a detail many don’t realize.
  47. Often, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — a detail many don’t realize.
  48. Sometimes, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — a detail many don’t realize.
  49. Footprints left on the Moon can often last for millions of years because there’s no wind or rain. — and it still holds true.
  50. Interestingly, The fact that footprints left on the Moon can last for millions of years because there’s no wind or rain. — and it still holds true.
  51. Surprisingly, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — and it still holds true.
  52. Remarkably, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — and it still holds true.
  53. In fact, Footprints left on the Moon can often last for millions of years because there’s no wind or rain. — and it still holds true.
  54. Often, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — and it still holds true.
  55. Sometimes, The fact that footprints left on the Moon can last for millions of years because there’s no wind or rain. — and it still holds true.
  56. Footprints left on the Moon can last for millions of years because there’s no wind or rain. — a neat bit of trivia.
  57. Interestingly, Footprints left on the Moon can often last for millions of years because there’s no wind or rain. — a neat bit of trivia.
  58. Surprisingly, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — a neat bit of trivia.
  59. Remarkably, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — a neat bit of trivia.
  60. In fact, The fact that footprints left on the Moon can last for millions of years because there’s no wind or rain. — a neat bit of trivia.
  61. Often, Footprints left on the Moon can often last for millions of years because there’s no wind or rain. — a neat bit of trivia.
  62. Sometimes, Footprints left on the Moon can last for millions of years because there’s no wind or rain. — a neat bit of trivia.
  63. Footprints left on the Moon can last for millions of years because there’s no wind or rain.
  64. Interestingly, Footprints left on the Moon can last for millions of years because there’s no wind or rain.
  65. Surprisingly, The fact that footprints left on the Moon can often last for millions of years because there’s no wind or rain.
  66. Remarkably, Footprints left on the Moon can last for millions of years because there’s no wind or rain.
  67. In fact, Footprints left on the Moon can last for millions of years because there’s no wind or rain.
  68. Often, Footprints left on the Moon can last for millions of years because there’s no wind or rain.
  69. The fact that jupiter’s Great Red Spot is actually a storm that has raged for centuries.
  70. Interestingly, Jupiter’s Great Red Spot is a storm that has raged for centuries.
  71. Surprisingly, Jupiter’s Great Red Spot is a storm that has raged for centuries.
  72. Remarkably, Jupiter’s Great Red Spot is a storm that has raged for centuries.
  73. In fact, Jupiter’s Great Red Spot is actually a storm that has raged for centuries.
  74. Often, The fact that jupiter’s Great Red Spot is a storm that has raged for centuries.
  75. Sometimes, Jupiter’s Great Red Spot is a storm that has raged for centuries.
  76. Jupiter’s Great Red Spot is a storm that has raged for centuries. — a detail many don’t realize.
  77. Interestingly, Jupiter’s Great Red Spot is actually a storm that has raged for centuries. — a detail many don’t realize.
  78. Surprisingly, Jupiter’s Great Red Spot is a storm that has raged for centuries. — a detail many don’t realize.
  79. Remarkably, The fact that jupiter’s Great Red Spot is a storm that has raged for centuries. — a detail many don’t realize.
  80. In fact, Jupiter’s Great Red Spot is a storm that has raged for centuries. — a detail many don’t realize.
  81. Often, Jupiter’s Great Red Spot is actually a storm that has raged for centuries. — a detail many don’t realize.
  82. Sometimes, Jupiter’s Great Red Spot is a storm that has raged for centuries. — a detail many don’t realize.
  83. Jupiter’s Great Red Spot is a storm that has raged for centuries. — and it still holds true.
  84. Interestingly, The fact that jupiter’s Great Red Spot is a storm that has raged for centuries. — and it still holds true.
  85. Surprisingly, Jupiter’s Great Red Spot is actually a storm that has raged for centuries. — and it still holds true.
  86. Remarkably, Jupiter’s Great Red Spot is a storm that has raged for centuries. — and it still holds true.
  87. In fact, Jupiter’s Great Red Spot is a storm that has raged for centuries. — and it still holds true.
  88. Often, Jupiter’s Great Red Spot is a storm that has raged for centuries. — and it still holds true.
  89. Sometimes, The fact that jupiter’s Great Red Spot is actually a storm that has raged for centuries. — and it still holds true.
  90. Jupiter’s Great Red Spot is a storm that has raged for centuries. — a neat bit of trivia.
  91. Interestingly, Jupiter’s Great Red Spot is a storm that has raged for centuries. — a neat bit of trivia.
  92. Surprisingly, Jupiter’s Great Red Spot is a storm that has raged for centuries. — a neat bit of trivia.
  93. Remarkably, Jupiter’s Great Red Spot is actually a storm that has raged for centuries. — a neat bit of trivia.
  94. In fact, The fact that jupiter’s Great Red Spot is a storm that has raged for centuries. — a neat bit of trivia.
  95. Often, Jupiter’s Great Red Spot is a storm that has raged for centuries. — a neat bit of trivia.
  96. Sometimes, Jupiter’s Great Red Spot is a storm that has raged for centuries. — a neat bit of trivia.
  97. Jupiter’s Great Red Spot is actually a storm that has raged for centuries.
  98. Interestingly, Jupiter’s Great Red Spot is a storm that has raged for centuries.
  99. Surprisingly, The fact that jupiter’s Great Red Spot is a storm that has raged for centuries.
  100. Remarkably, Jupiter’s Great Red Spot is a storm that has raged for centuries.
  101. In fact, Jupiter’s Great Red Spot is actually a storm that has raged for centuries.
  102. Often, Jupiter’s Great Red Spot is a storm that has raged for centuries.
  103. The fact that olympus Mons on Mars is actually the tallest known volcano in the solar system.
  104. Interestingly, Olympus Mons on Mars is the tallest known volcano in the solar system.
  105. Surprisingly, Olympus Mons on Mars is the tallest known volcano in the solar system.
  106. Remarkably, Olympus Mons on Mars is the tallest known volcano in the solar system.
  107. In fact, Olympus Mons on Mars is actually the tallest known volcano in the solar system.
  108. Often, The fact that olympus Mons on Mars is the tallest known volcano in the solar system.
  109. Sometimes, Olympus Mons on Mars is the tallest known volcano in the solar system.
  110. Olympus Mons on Mars is the tallest known volcano in the solar system. — a detail many don’t realize.
  111. Interestingly, Olympus Mons on Mars is actually the tallest known volcano in the solar system. — a detail many don’t realize.
  112. Surprisingly, Olympus Mons on Mars is the tallest known volcano in the solar system. — a detail many don’t realize.
  113. Remarkably, The fact that olympus Mons on Mars is the tallest known volcano in the solar system. — a detail many don’t realize.
  114. In fact, Olympus Mons on Mars is the tallest known volcano in the solar system. — a detail many don’t realize.
  115. Often, Olympus Mons on Mars is actually the tallest known volcano in the solar system. — a detail many don’t realize.
  116. Sometimes, Olympus Mons on Mars is the tallest known volcano in the solar system. — a detail many don’t realize.
  117. Olympus Mons on Mars is the tallest known volcano in the solar system. — and it still holds true.
  118. Interestingly, The fact that olympus Mons on Mars is the tallest known volcano in the solar system. — and it still holds true.
  119. Surprisingly, Olympus Mons on Mars is actually the tallest known volcano in the solar system. — and it still holds true.
  120. Remarkably, Olympus Mons on Mars is the tallest known volcano in the solar system. — and it still holds true.
  121. In fact, Olympus Mons on Mars is the tallest known volcano in the solar system. — and it still holds true.
  122. Often, Olympus Mons on Mars is the tallest known volcano in the solar system. — and it still holds true.
  123. Sometimes, The fact that olympus Mons on Mars is actually the tallest known volcano in the solar system. — and it still holds true.
  124. Olympus Mons on Mars is the tallest known volcano in the solar system. — a neat bit of trivia.
  125. Interestingly, Olympus Mons on Mars is the tallest known volcano in the solar system. — a neat bit of trivia.
  126. Surprisingly, Olympus Mons on Mars is the tallest known volcano in the solar system. — a neat bit of trivia.
  127. Remarkably, Olympus Mons on Mars is actually the tallest known volcano in the solar system. — a neat bit of trivia.
  128. In fact, The fact that olympus Mons on Mars is the tallest known volcano in the solar system. — a neat bit of trivia.
  129. Often, Olympus Mons on Mars is the tallest known volcano in the solar system. — a neat bit of trivia.
  130. Sometimes, Olympus Mons on Mars is the tallest known volcano in the solar system. — a neat bit of trivia.
  131. Olympus Mons on Mars is actually the tallest known volcano in the solar system.
  132. Interestingly, Olympus Mons on Mars is the tallest known volcano in the solar system.
  133. Surprisingly, The fact that olympus Mons on Mars is the tallest known volcano in the solar system.
  134. Remarkably, Olympus Mons on Mars is the tallest known volcano in the solar system.
  135. In fact, Olympus Mons on Mars is actually the tallest known volcano in the solar system.
  136. Often, Olympus Mons on Mars is the tallest known volcano in the solar system.
  137. The fact that the Sun contains the vast majority of the solar system’s mass.
  138. Interestingly, The Sun contains the vast majority of the solar system’s mass.
  139. Surprisingly, The Sun contains the vast majority of the solar system’s mass.
  140. Remarkably, The Sun contains the vast majority of the solar system’s mass.
  141. In fact, The Sun contains the vast majority of the solar system’s mass.
  142. Often, The fact that the Sun contains the vast majority of the solar system’s mass.
  143. Sometimes, The Sun contains the vast majority of the solar system’s mass.
  144. The Sun contains the vast majority of the solar system’s mass. — a detail many don’t realize.
  145. Interestingly, The Sun contains the vast majority of the solar system’s mass. — a detail many don’t realize.
  146. Surprisingly, The Sun contains the vast majority of the solar system’s mass. — a detail many don’t realize.
  147. Remarkably, The fact that the Sun contains the vast majority of the solar system’s mass. — a detail many don’t realize.
  148. In fact, The Sun contains the vast majority of the solar system’s mass. — a detail many don’t realize.
  149. Often, The Sun contains the vast majority of the solar system’s mass. — a detail many don’t realize.
  150. Sometimes, The Sun contains the vast majority of the solar system’s mass. — a detail many don’t realize.
  151. The Sun contains the vast majority of the solar system’s mass. — and it still holds true.
  152. Interestingly, The fact that the Sun contains the vast majority of the solar system’s mass. — and it still holds true.
  153. Surprisingly, The Sun contains the vast majority of the solar system’s mass. — and it still holds true.
  154. Remarkably, The Sun contains the vast majority of the solar system’s mass. — and it still holds true.
  155. In fact, The Sun contains the vast majority of the solar system’s mass. — and it still holds true.
  156. Often, The Sun contains the vast majority of the solar system’s mass. — and it still holds true.
  157. Sometimes, The fact that the Sun contains the vast majority of the solar system’s mass. — and it still holds true.
  158. The Sun contains the vast majority of the solar system’s mass. — a neat bit of trivia.
  159. Interestingly, The Sun contains the vast majority of the solar system’s mass. — a neat bit of trivia.
  160. Surprisingly, The Sun contains the vast majority of the solar system’s mass. — a neat bit of trivia.
  161. Remarkably, The Sun contains the vast majority of the solar system’s mass. — a neat bit of trivia.
  162. In fact, The fact that the Sun contains the vast majority of the solar system’s mass. — a neat bit of trivia.
  163. Often, The Sun contains the vast majority of the solar system’s mass. — a neat bit of trivia.
  164. Sometimes, The Sun contains the vast majority of the solar system’s mass. — a neat bit of trivia.
  165. The Sun contains the vast majority of the solar system’s mass.
  166. Interestingly, The Sun contains the vast majority of the solar system’s mass.
  167. Surprisingly, The fact that the Sun contains the vast majority of the solar system’s mass.
  168. Remarkably, The Sun contains the vast majority of the solar system’s mass.
  169. In fact, The Sun contains the vast majority of the solar system’s mass.
  170. Often, The Sun contains the vast majority of the solar system’s mass.
  171. The fact that the International Space Station orbits Earth about 16 times a day.
  172. Interestingly, The International Space Station orbits Earth about 16 times a day.
  173. Surprisingly, The International Space Station orbits Earth about 16 times a day.
  174. Remarkably, The International Space Station orbits Earth about 16 times a day.
  175. In fact, The International Space Station orbits Earth about 16 times a day.
  176. Often, The fact that the International Space Station orbits Earth about 16 times a day.
  177. Sometimes, The International Space Station orbits Earth about 16 times a day.
  178. The International Space Station orbits Earth about 16 times a day. — a detail many don’t realize.
  179. Interestingly, The International Space Station orbits Earth about 16 times a day. — a detail many don’t realize.
  180. Surprisingly, The International Space Station orbits Earth about 16 times a day. — a detail many don’t realize.
  181. Remarkably, The fact that the International Space Station orbits Earth about 16 times a day. — a detail many don’t realize.
  182. In fact, The International Space Station orbits Earth about 16 times a day. — a detail many don’t realize.
  183. Often, The International Space Station orbits Earth about 16 times a day. — a detail many don’t realize.
  184. Sometimes, The International Space Station orbits Earth about 16 times a day. — a detail many don’t realize.
  185. The International Space Station orbits Earth about 16 times a day. — and it still holds true.
  186. Interestingly, The fact that the International Space Station orbits Earth about 16 times a day. — and it still holds true.
  187. Surprisingly, The International Space Station orbits Earth about 16 times a day. — and it still holds true.
  188. Remarkably, The International Space Station orbits Earth about 16 times a day. — and it still holds true.
  189. In fact, The International Space Station orbits Earth about 16 times a day. — and it still holds true.
  190. Often, The International Space Station orbits Earth about 16 times a day. — and it still holds true.
  191. Sometimes, The fact that the International Space Station orbits Earth about 16 times a day. — and it still holds true.
  192. The International Space Station orbits Earth about 16 times a day. — a neat bit of trivia.
  193. Interestingly, The International Space Station orbits Earth about 16 times a day. — a neat bit of trivia.
  194. Surprisingly, The International Space Station orbits Earth about 16 times a day. — a neat bit of trivia.
  195. Remarkably, The International Space Station orbits Earth about 16 times a day. — a neat bit of trivia.
  196. In fact, The fact that the International Space Station orbits Earth about 16 times a day. — a neat bit of trivia.
  197. Often, The International Space Station orbits Earth about 16 times a day. — a neat bit of trivia.
  198. Sometimes, The International Space Station orbits Earth about 16 times a day. — a neat bit of trivia.
  199. The International Space Station orbits Earth about 16 times a day.
  200. Interestingly, The International Space Station orbits Earth about 16 times a day.
  201. Surprisingly, The fact that the International Space Station orbits Earth about 16 times a day.
  202. Remarkably, The International Space Station orbits Earth about 16 times a day.
  203. In fact, The International Space Station orbits Earth about 16 times a day.
  204. Often, The International Space Station orbits Earth about 16 times a day.
  205. The fact that a teaspoon of neutron star material would weigh billions of tons on Earth.
  206. Interestingly, A teaspoon of neutron star material would weigh billions of tons on Earth.
  207. Surprisingly, A teaspoon of neutron star material would weigh billions of tons on Earth.
  208. Remarkably, A teaspoon of neutron star material would weigh billions of tons on Earth.
  209. In fact, A teaspoon of neutron star material would weigh billions of tons on Earth.
  210. Often, The fact that a teaspoon of neutron star material would weigh billions of tons on Earth.
  211. Sometimes, A teaspoon of neutron star material would weigh billions of tons on Earth.
  212. A teaspoon of neutron star material would weigh billions of tons on Earth. — a detail many don’t realize.
  213. Interestingly, A teaspoon of neutron star material would weigh billions of tons on Earth. — a detail many don’t realize.
  214. Surprisingly, A teaspoon of neutron star material would weigh billions of tons on Earth. — a detail many don’t realize.
  215. Remarkably, The fact that a teaspoon of neutron star material would weigh billions of tons on Earth. — a detail many don’t realize.
  216. In fact, A teaspoon of neutron star material would weigh billions of tons on Earth. — a detail many don’t realize.
  217. Often, A teaspoon of neutron star material would weigh billions of tons on Earth. — a detail many don’t realize.
  218. Sometimes, A teaspoon of neutron star material would weigh billions of tons on Earth. — a detail many don’t realize.
  219. A teaspoon of neutron star material would weigh billions of tons on Earth. — and it still holds true.
  220. Interestingly, The fact that a teaspoon of neutron star material would weigh billions of tons on Earth. — and it still holds true.
  221. Surprisingly, A teaspoon of neutron star material would weigh billions of tons on Earth. — and it still holds true.
  222. Remarkably, A teaspoon of neutron star material would weigh billions of tons on Earth. — and it still holds true.
  223. In fact, A teaspoon of neutron star material would weigh billions of tons on Earth. — and it still holds true.
  224. Often, A teaspoon of neutron star material would weigh billions of tons on Earth. — and it still holds true.
  225. Sometimes, The fact that a teaspoon of neutron star material would weigh billions of tons on Earth. — and it still holds true.
  226. A teaspoon of neutron star material would weigh billions of tons on Earth. — a neat bit of trivia.
  227. Interestingly, A teaspoon of neutron star material would weigh billions of tons on Earth. — a neat bit of trivia.
  228. Surprisingly, A teaspoon of neutron star material would weigh billions of tons on Earth. — a neat bit of trivia.
  229. Remarkably, A teaspoon of neutron star material would weigh billions of tons on Earth. — a neat bit of trivia.
  230. In fact, The fact that a teaspoon of neutron star material would weigh billions of tons on Earth. — a neat bit of trivia.
  231. Often, A teaspoon of neutron star material would weigh billions of tons on Earth. — a neat bit of trivia.
  232. Sometimes, A teaspoon of neutron star material would weigh billions of tons on Earth. — a neat bit of trivia.
  233. A teaspoon of neutron star material would weigh billions of tons on Earth.
  234. Interestingly, A teaspoon of neutron star material would weigh billions of tons on Earth.
  235. Surprisingly, The fact that a teaspoon of neutron star material would weigh billions of tons on Earth.
  236. Remarkably, A teaspoon of neutron star material would weigh billions of tons on Earth.
  237. In fact, A teaspoon of neutron star material would weigh billions of tons on Earth.
  238. Often, A teaspoon of neutron star material would weigh billions of tons on Earth.
  239. The fact that saturn has a persistent hexagon-shaped jet stream at its north pole.
  240. Interestingly, Saturn has a persistent hexagon-shaped jet stream at its north pole.
  241. Surprisingly, Saturn has a persistent hexagon-shaped jet stream at its north pole.
  242. Remarkably, Saturn has a persistent hexagon-shaped jet stream at its north pole.
  243. In fact, Saturn has a persistent hexagon-shaped jet stream at its north pole.
  244. Often, The fact that saturn has a persistent hexagon-shaped jet stream at its north pole.
  245. Sometimes, Saturn has a persistent hexagon-shaped jet stream at its north pole.
  246. Saturn has a persistent hexagon-shaped jet stream at its north pole. — a detail many don’t realize.
  247. Interestingly, Saturn has a persistent hexagon-shaped jet stream at its north pole. — a detail many don’t realize.
  248. Surprisingly, Saturn has a persistent hexagon-shaped jet stream at its north pole. — a detail many don’t realize.
  249. Remarkably, The fact that saturn has a persistent hexagon-shaped jet stream at its north pole. — a detail many don’t realize.
  250. In fact, Saturn has a persistent hexagon-shaped jet stream at its north pole. — a detail many don’t realize.
  251. Often, Saturn has a persistent hexagon-shaped jet stream at its north pole. — a detail many don’t realize.
  252. Sometimes, Saturn has a persistent hexagon-shaped jet stream at its north pole. — a detail many don’t realize.
  253. Saturn has a persistent hexagon-shaped jet stream at its north pole. — and it still holds true.
  254. Interestingly, The fact that saturn has a persistent hexagon-shaped jet stream at its north pole. — and it still holds true.
  255. Surprisingly, Saturn has a persistent hexagon-shaped jet stream at its north pole. — and it still holds true.
  256. Remarkably, Saturn has a persistent hexagon-shaped jet stream at its north pole. — and it still holds true.
  257. In fact, Saturn has a persistent hexagon-shaped jet stream at its north pole. — and it still holds true.
  258. Often, Saturn has a persistent hexagon-shaped jet stream at its north pole. — and it still holds true.
  259. Sometimes, The fact that saturn has a persistent hexagon-shaped jet stream at its north pole. — and it still holds true.
  260. Saturn has a persistent hexagon-shaped jet stream at its north pole. — a neat bit of trivia.
  261. Interestingly, Saturn has a persistent hexagon-shaped jet stream at its north pole. — a neat bit of trivia.
  262. Surprisingly, Saturn has a persistent hexagon-shaped jet stream at its north pole. — a neat bit of trivia.
  263. Remarkably, Saturn has a persistent hexagon-shaped jet stream at its north pole. — a neat bit of trivia.
  264. In fact, The fact that saturn has a persistent hexagon-shaped jet stream at its north pole. — a neat bit of trivia.
  265. Often, Saturn has a persistent hexagon-shaped jet stream at its north pole. — a neat bit of trivia.
  266. Sometimes, Saturn has a persistent hexagon-shaped jet stream at its north pole. — a neat bit of trivia.
  267. Saturn has a persistent hexagon-shaped jet stream at its north pole.
  268. Interestingly, Saturn has a persistent hexagon-shaped jet stream at its north pole.
  269. Surprisingly, The fact that saturn has a persistent hexagon-shaped jet stream at its north pole.
  270. Remarkably, Saturn has a persistent hexagon-shaped jet stream at its north pole.
  271. In fact, Saturn has a persistent hexagon-shaped jet stream at its north pole.
  272. Often, Saturn has a persistent hexagon-shaped jet stream at its north pole.
  273. The fact that neptune’s winds are the fastest in the solar system, reaching supersonic speeds.
  274. Interestingly, Neptune’s winds are actually the fastest in the solar system, reaching supersonic speeds.
  275. Surprisingly, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds.
  276. Remarkably, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds.
  277. In fact, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds.
  278. Often, The fact that neptune’s winds are actually the fastest in the solar system, reaching supersonic speeds.
  279. Sometimes, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds.
  280. Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — a detail many don’t realize.
  281. Interestingly, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — a detail many don’t realize.
  282. Surprisingly, Neptune’s winds are actually the fastest in the solar system, reaching supersonic speeds. — a detail many don’t realize.
  283. Remarkably, The fact that neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — a detail many don’t realize.
  284. In fact, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — a detail many don’t realize.
  285. Often, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — a detail many don’t realize.
  286. Sometimes, Neptune’s winds are actually the fastest in the solar system, reaching supersonic speeds. — a detail many don’t realize.
  287. Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — and it still holds true.
  288. Interestingly, The fact that neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — and it still holds true.
  289. Surprisingly, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — and it still holds true.
  290. Remarkably, Neptune’s winds are actually the fastest in the solar system, reaching supersonic speeds. — and it still holds true.
  291. In fact, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — and it still holds true.
  292. Often, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — and it still holds true.
  293. Sometimes, The fact that neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — and it still holds true.
  294. Neptune’s winds are actually the fastest in the solar system, reaching supersonic speeds. — a neat bit of trivia.
  295. Interestingly, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — a neat bit of trivia.
  296. Surprisingly, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — a neat bit of trivia.
  297. Remarkably, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — a neat bit of trivia.
  298. In fact, The fact that neptune’s winds are actually the fastest in the solar system, reaching supersonic speeds. — a neat bit of trivia.
  299. Often, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — a neat bit of trivia.
  300. Sometimes, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds. — a neat bit of trivia.
  301. Neptune’s winds are the fastest in the solar system, reaching supersonic speeds.
  302. Interestingly, Neptune’s winds are actually the fastest in the solar system, reaching supersonic speeds.
  303. Surprisingly, The fact that neptune’s winds are the fastest in the solar system, reaching supersonic speeds.
  304. Remarkably, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds.
  305. In fact, Neptune’s winds are the fastest in the solar system, reaching supersonic speeds.
  306. Often, Neptune’s winds are actually the fastest in the solar system, reaching supersonic speeds.
  307. The fact that there are more than a million known asteroids in our solar system.
  308. Interestingly, There are actually more than a million known asteroids in our solar system.
  309. Surprisingly, There are more than a million known asteroids in our solar system.
  310. Remarkably, There are more than a million known asteroids in our solar system.
  311. In fact, There are more than a million known asteroids in our solar system.
  312. Often, The fact that there are actually more than a million known asteroids in our solar system.
  313. Sometimes, There are more than a million known asteroids in our solar system.
  314. There are more than a million known asteroids in our solar system. — a detail many don’t realize.
  315. Interestingly, There are more than a million known asteroids in our solar system. — a detail many don’t realize.
  316. Surprisingly, There are actually more than a million known asteroids in our solar system. — a detail many don’t realize.
  317. Remarkably, The fact that there are more than a million known asteroids in our solar system. — a detail many don’t realize.
  318. In fact, There are more than a million known asteroids in our solar system. — a detail many don’t realize.
  319. Often, There are more than a million known asteroids in our solar system. — a detail many don’t realize.
  320. Sometimes, There are actually more than a million known asteroids in our solar system. — a detail many don’t realize.
  321. There are more than a million known asteroids in our solar system. — and it still holds true.
  322. Interestingly, The fact that there are more than a million known asteroids in our solar system. — and it still holds true.
  323. Surprisingly, There are more than a million known asteroids in our solar system. — and it still holds true.
  324. Remarkably, There are actually more than a million known asteroids in our solar system. — and it still holds true.
  325. In fact, There are more than a million known asteroids in our solar system. — and it still holds true.
  326. Often, There are more than a million known asteroids in our solar system. — and it still holds true.
  327. Sometimes, The fact that there are more than a million known asteroids in our solar system. — and it still holds true.
  328. There are actually more than a million known asteroids in our solar system. — a neat bit of trivia.
  329. Interestingly, There are more than a million known asteroids in our solar system. — a neat bit of trivia.
  330. Surprisingly, There are more than a million known asteroids in our solar system. — a neat bit of trivia.
  331. Remarkably, There are more than a million known asteroids in our solar system. — a neat bit of trivia.
  332. In fact, The fact that there are actually more than a million known asteroids in our solar system. — a neat bit of trivia.
  333. Often, There are more than a million known asteroids in our solar system. — a neat bit of trivia.
  334. Sometimes, There are more than a million known asteroids in our solar system. — a neat bit of trivia.
  335. There are more than a million known asteroids in our solar system.
  336. Interestingly, There are actually more than a million known asteroids in our solar system.
  337. Surprisingly, The fact that there are more than a million known asteroids in our solar system.
  338. Remarkably, There are more than a million known asteroids in our solar system.
  339. In fact, There are more than a million known asteroids in our solar system.
  340. Often, There are actually more than a million known asteroids in our solar system.
  341. The fact that earth’s atmosphere extends far beyond the Moon, fading into space.
  342. Interestingly, Earth’s atmosphere extends far beyond the Moon, fading into space.
  343. Surprisingly, Earth’s atmosphere extends far beyond the Moon, fading into space.
  344. Remarkably, Earth’s atmosphere extends far beyond the Moon, fading into space.
  345. In fact, Earth’s atmosphere extends far beyond the Moon, fading into space.
  346. Often, The fact that earth’s atmosphere extends far beyond the Moon, fading into space.
  347. Sometimes, Earth’s atmosphere extends far beyond the Moon, fading into space.
  348. Earth’s atmosphere extends far beyond the Moon, fading into space. — a detail many don’t realize.
  349. Interestingly, Earth’s atmosphere extends far beyond the Moon, fading into space. — a detail many don’t realize.
  350. Surprisingly, Earth’s atmosphere extends far beyond the Moon, fading into space. — a detail many don’t realize.
  351. Remarkably, The fact that earth’s atmosphere extends far beyond the Moon, fading into space. — a detail many don’t realize.
  352. In fact, Earth’s atmosphere extends far beyond the Moon, fading into space. — a detail many don’t realize.
  353. Often, Earth’s atmosphere extends far beyond the Moon, fading into space. — a detail many don’t realize.
  354. Sometimes, Earth’s atmosphere extends far beyond the Moon, fading into space. — a detail many don’t realize.
  355. Earth’s atmosphere extends far beyond the Moon, fading into space. — and it still holds true.
  356. Interestingly, The fact that earth’s atmosphere extends far beyond the Moon, fading into space. — and it still holds true.
  357. Surprisingly, Earth’s atmosphere extends far beyond the Moon, fading into space. — and it still holds true.
  358. Remarkably, Earth’s atmosphere extends far beyond the Moon, fading into space. — and it still holds true.
  359. In fact, Earth’s atmosphere extends far beyond the Moon, fading into space. — and it still holds true.
  360. Often, Earth’s atmosphere extends far beyond the Moon, fading into space. — and it still holds true.
  361. Sometimes, The fact that earth’s atmosphere extends far beyond the Moon, fading into space. — and it still holds true.
  362. Earth’s atmosphere extends far beyond the Moon, fading into space. — a neat bit of trivia.
  363. Interestingly, Earth’s atmosphere extends far beyond the Moon, fading into space. — a neat bit of trivia.
  364. Surprisingly, Earth’s atmosphere extends far beyond the Moon, fading into space. — a neat bit of trivia.
  365. Remarkably, Earth’s atmosphere extends far beyond the Moon, fading into space. — a neat bit of trivia.
  366. In fact, The fact that earth’s atmosphere extends far beyond the Moon, fading into space. — a neat bit of trivia.
  367. Often, Earth’s atmosphere extends far beyond the Moon, fading into space. — a neat bit of trivia.
  368. Sometimes, Earth’s atmosphere extends far beyond the Moon, fading into space. — a neat bit of trivia.
  369. Earth’s atmosphere extends far beyond the Moon, fading into space.
  370. Interestingly, Earth’s atmosphere extends far beyond the Moon, fading into space.
  371. Surprisingly, The fact that earth’s atmosphere extends far beyond the Moon, fading into space.
  372. Remarkably, Earth’s atmosphere extends far beyond the Moon, fading into space.
  373. In fact, Earth’s atmosphere extends far beyond the Moon, fading into space.
  374. Often, Earth’s atmosphere extends far beyond the Moon, fading into space.
  375. The fact that some comets leave dust that creates annual meteor showers on Earth.
  376. Interestingly, Some comets leave dust that creates annual meteor showers on Earth.
  377. Surprisingly, Some comets leave dust that creates annual meteor showers on Earth.
  378. Remarkably, Some comets leave dust that creates annual meteor showers on Earth.
  379. In fact, Some comets leave dust that creates annual meteor showers on Earth.
  380. Often, The fact that some comets leave dust that creates annual meteor showers on Earth.
  381. Sometimes, Some comets leave dust that creates annual meteor showers on Earth.
  382. Some comets leave dust that creates annual meteor showers on Earth. — a detail many don’t realize.
  383. Interestingly, Some comets leave dust that creates annual meteor showers on Earth. — a detail many don’t realize.
  384. Surprisingly, Some comets leave dust that creates annual meteor showers on Earth. — a detail many don’t realize.
  385. Remarkably, The fact that some comets leave dust that creates annual meteor showers on Earth. — a detail many don’t realize.
  386. In fact, Some comets leave dust that creates annual meteor showers on Earth. — a detail many don’t realize.
  387. Often, Some comets leave dust that creates annual meteor showers on Earth. — a detail many don’t realize.
  388. Sometimes, Some comets leave dust that creates annual meteor showers on Earth. — a detail many don’t realize.
  389. Some comets leave dust that creates annual meteor showers on Earth. — and it still holds true.
  390. Interestingly, The fact that some comets leave dust that creates annual meteor showers on Earth. — and it still holds true.
  391. Surprisingly, Some comets leave dust that creates annual meteor showers on Earth. — and it still holds true.
  392. Remarkably, Some comets leave dust that creates annual meteor showers on Earth. — and it still holds true.
  393. In fact, Some comets leave dust that creates annual meteor showers on Earth. — and it still holds true.
  394. Often, Some comets leave dust that creates annual meteor showers on Earth. — and it still holds true.
  395. Sometimes, The fact that some comets leave dust that creates annual meteor showers on Earth. — and it still holds true.
  396. Some comets leave dust that creates annual meteor showers on Earth. — a neat bit of trivia.
  397. Interestingly, Some comets leave dust that creates annual meteor showers on Earth. — a neat bit of trivia.
  398. Surprisingly, Some comets leave dust that creates annual meteor showers on Earth. — a neat bit of trivia.
  399. Remarkably, Some comets leave dust that creates annual meteor showers on Earth. — a neat bit of trivia.
  400. In fact, The fact that some comets leave dust that creates annual meteor showers on Earth. — a neat bit of trivia.
  401. Often, Some comets leave dust that creates annual meteor showers on Earth. — a neat bit of trivia.
  402. Sometimes, Some comets leave dust that creates annual meteor showers on Earth. — a neat bit of trivia.
  403. Some comets leave dust that creates annual meteor showers on Earth.
  404. Interestingly, Some comets leave dust that creates annual meteor showers on Earth.
  405. Surprisingly, The fact that some comets leave dust that creates annual meteor showers on Earth.
  406. Remarkably, Some comets leave dust that creates annual meteor showers on Earth.
  407. In fact, Some comets leave dust that creates annual meteor showers on Earth.
  408. Often, Some comets leave dust that creates annual meteor showers on Earth.
  409. The fact that most of the solar system’s comets originate in the distant Oort Cloud.
  410. Interestingly, Most of the solar system’s comets originate in the distant Oort Cloud.
  411. Surprisingly, Most of the solar system’s comets originate in the distant Oort Cloud.
  412. Remarkably, Most of the solar system’s comets originate in the distant Oort Cloud.
  413. In fact, Most of the solar system’s comets originate in the distant Oort Cloud.
  414. Often, The fact that most of the solar system’s comets originate in the distant Oort Cloud.
  415. Sometimes, Most of the solar system’s comets originate in the distant Oort Cloud.
  416. Most of the solar system’s comets originate in the distant Oort Cloud. — a detail many don’t realize.
  417. Interestingly, Most of the solar system’s comets originate in the distant Oort Cloud. — a detail many don’t realize.
  418. Surprisingly, Most of the solar system’s comets originate in the distant Oort Cloud. — a detail many don’t realize.
  419. Remarkably, The fact that most of the solar system’s comets originate in the distant Oort Cloud. — a detail many don’t realize.
  420. In fact, Most of the solar system’s comets originate in the distant Oort Cloud. — a detail many don’t realize.
  421. Often, Most of the solar system’s comets originate in the distant Oort Cloud. — a detail many don’t realize.
  422. Sometimes, Most of the solar system’s comets originate in the distant Oort Cloud. — a detail many don’t realize.
  423. Most of the solar system’s comets originate in the distant Oort Cloud. — and it still holds true.
  424. Interestingly, The fact that most of the solar system’s comets originate in the distant Oort Cloud. — and it still holds true.
  425. Surprisingly, Most of the solar system’s comets originate in the distant Oort Cloud. — and it still holds true.
  426. Remarkably, Most of the solar system’s comets originate in the distant Oort Cloud. — and it still holds true.
  427. In fact, Most of the solar system’s comets originate in the distant Oort Cloud. — and it still holds true.
  428. Often, Most of the solar system’s comets originate in the distant Oort Cloud. — and it still holds true.
  429. Sometimes, The fact that most of the solar system’s comets originate in the distant Oort Cloud. — and it still holds true.
  430. Most of the solar system’s comets originate in the distant Oort Cloud. — a neat bit of trivia.
  431. Interestingly, Most of the solar system’s comets originate in the distant Oort Cloud. — a neat bit of trivia.
  432. Surprisingly, Most of the solar system’s comets originate in the distant Oort Cloud. — a neat bit of trivia.
  433. Remarkably, Most of the solar system’s comets originate in the distant Oort Cloud. — a neat bit of trivia.
  434. In fact, The fact that most of the solar system’s comets originate in the distant Oort Cloud. — a neat bit of trivia.
  435. Often, Most of the solar system’s comets originate in the distant Oort Cloud. — a neat bit of trivia.
  436. Sometimes, Most of the solar system’s comets originate in the distant Oort Cloud. — a neat bit of trivia.
  437. Most of the solar system’s comets originate in the distant Oort Cloud.
  438. Interestingly, Most of the solar system’s comets originate in the distant Oort Cloud.
  439. Surprisingly, The fact that most of the solar system’s comets originate in the distant Oort Cloud.
  440. Remarkably, Most of the solar system’s comets originate in the distant Oort Cloud.
  441. In fact, Most of the solar system’s comets originate in the distant Oort Cloud.
  442. Often, Most of the solar system’s comets originate in the distant Oort Cloud.
  443. The fact that pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  444. Interestingly, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  445. Surprisingly, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  446. Remarkably, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  447. In fact, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  448. Often, The fact that pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  449. Sometimes, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  450. Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a detail many don’t realize.
  451. Interestingly, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a detail many don’t realize.
  452. Surprisingly, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a detail many don’t realize.
  453. Remarkably, The fact that pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a detail many don’t realize.
  454. In fact, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a detail many don’t realize.
  455. Often, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a detail many don’t realize.
  456. Sometimes, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a detail many don’t realize.
  457. Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — and it still holds true.
  458. Interestingly, The fact that pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — and it still holds true.
  459. Surprisingly, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — and it still holds true.
  460. Remarkably, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — and it still holds true.
  461. In fact, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — and it still holds true.
  462. Often, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — and it still holds true.
  463. Sometimes, The fact that pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — and it still holds true.
  464. Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a neat bit of trivia.
  465. Interestingly, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a neat bit of trivia.
  466. Surprisingly, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a neat bit of trivia.
  467. Remarkably, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a neat bit of trivia.
  468. In fact, The fact that pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a neat bit of trivia.
  469. Often, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a neat bit of trivia.
  470. Sometimes, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio. — a neat bit of trivia.
  471. Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  472. Interestingly, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  473. Surprisingly, The fact that pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  474. Remarkably, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  475. In fact, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  476. Often, Pluto has a heart-shaped region of nitrogen ice called Tombaugh Regio.
  477. The fact that europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  478. Interestingly, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  479. Surprisingly, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  480. Remarkably, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  481. In fact, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  482. Often, The fact that europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  483. Sometimes, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  484. Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a detail many don’t realize.
  485. Interestingly, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a detail many don’t realize.
  486. Surprisingly, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a detail many don’t realize.
  487. Remarkably, The fact that europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a detail many don’t realize.
  488. In fact, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a detail many don’t realize.
  489. Often, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a detail many don’t realize.
  490. Sometimes, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a detail many don’t realize.
  491. Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — and it still holds true.
  492. Interestingly, The fact that europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — and it still holds true.
  493. Surprisingly, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — and it still holds true.
  494. Remarkably, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — and it still holds true.
  495. In fact, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — and it still holds true.
  496. Often, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — and it still holds true.
  497. Sometimes, The fact that europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — and it still holds true.
  498. Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a neat bit of trivia.
  499. Interestingly, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a neat bit of trivia.
  500. Surprisingly, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a neat bit of trivia.
  501. Remarkably, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a neat bit of trivia.
  502. In fact, The fact that europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a neat bit of trivia.
  503. Often, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a neat bit of trivia.
  504. Sometimes, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell. — a neat bit of trivia.
  505. Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  506. Interestingly, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  507. Surprisingly, The fact that europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  508. Remarkably, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  509. In fact, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  510. Often, Europa, a moon of Jupiter, likely hides a global ocean beneath its ice shell.
  511. The fact that the Milky Way and Andromeda galaxies are on a slow-motion collision course.
  512. Interestingly, The Milky Way and Andromeda galaxies are actually on a slow-motion collision course.
  513. Surprisingly, The Milky Way and Andromeda galaxies are on a slow-motion collision course.
  514. Remarkably, The Milky Way and Andromeda galaxies are on a slow-motion collision course.
  515. In fact, The Milky Way and Andromeda galaxies are on a slow-motion collision course.
  516. Often, The fact that the Milky Way and Andromeda galaxies are actually on a slow-motion collision course.
  517. Sometimes, The Milky Way and Andromeda galaxies are on a slow-motion collision course.
  518. The Milky Way and Andromeda galaxies are on a slow-motion collision course. — a detail many don’t realize.
  519. Interestingly, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — a detail many don’t realize.
  520. Surprisingly, The Milky Way and Andromeda galaxies are actually on a slow-motion collision course. — a detail many don’t realize.
  521. Remarkably, The fact that the Milky Way and Andromeda galaxies are on a slow-motion collision course. — a detail many don’t realize.
  522. In fact, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — a detail many don’t realize.
  523. Often, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — a detail many don’t realize.
  524. Sometimes, The Milky Way and Andromeda galaxies are actually on a slow-motion collision course. — a detail many don’t realize.
  525. The Milky Way and Andromeda galaxies are on a slow-motion collision course. — and it still holds true.
  526. Interestingly, The fact that the Milky Way and Andromeda galaxies are on a slow-motion collision course. — and it still holds true.
  527. Surprisingly, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — and it still holds true.
  528. Remarkably, The Milky Way and Andromeda galaxies are actually on a slow-motion collision course. — and it still holds true.
  529. In fact, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — and it still holds true.
  530. Often, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — and it still holds true.
  531. Sometimes, The fact that the Milky Way and Andromeda galaxies are on a slow-motion collision course. — and it still holds true.
  532. The Milky Way and Andromeda galaxies are actually on a slow-motion collision course. — a neat bit of trivia.
  533. Interestingly, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — a neat bit of trivia.
  534. Surprisingly, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — a neat bit of trivia.
  535. Remarkably, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — a neat bit of trivia.
  536. In fact, The fact that the Milky Way and Andromeda galaxies are actually on a slow-motion collision course. — a neat bit of trivia.
  537. Often, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — a neat bit of trivia.
  538. Sometimes, The Milky Way and Andromeda galaxies are on a slow-motion collision course. — a neat bit of trivia.
  539. The Milky Way and Andromeda galaxies are on a slow-motion collision course.
  540. Interestingly, The Milky Way and Andromeda galaxies are actually on a slow-motion collision course.
  541. Surprisingly, The fact that the Milky Way and Andromeda galaxies are on a slow-motion collision course.
  542. Remarkably, The Milky Way and Andromeda galaxies are on a slow-motion collision course.
  543. In fact, The Milky Way and Andromeda galaxies are on a slow-motion collision course.
  544. Often, The Milky Way and Andromeda galaxies are actually on a slow-motion collision course.
  545. The fact that on Mars, sunsets appear blue because of dust scattering sunlight.
  546. Interestingly, On Mars, sunsets appear blue because of dust scattering sunlight.
  547. Surprisingly, On Mars, sunsets appear blue because of dust scattering sunlight.
  548. Remarkably, On Mars, sunsets appear blue because of dust scattering sunlight.
  549. In fact, On Mars, sunsets appear blue because of dust scattering sunlight.
  550. Often, The fact that on Mars, sunsets appear blue because of dust scattering sunlight.
  551. Sometimes, On Mars, sunsets appear blue because of dust scattering sunlight.
  552. On Mars, sunsets appear blue because of dust scattering sunlight. — a detail many don’t realize.
  553. Interestingly, On Mars, sunsets appear blue because of dust scattering sunlight. — a detail many don’t realize.
  554. Surprisingly, On Mars, sunsets appear blue because of dust scattering sunlight. — a detail many don’t realize.
  555. Remarkably, The fact that on Mars, sunsets appear blue because of dust scattering sunlight. — a detail many don’t realize.
  556. In fact, On Mars, sunsets appear blue because of dust scattering sunlight. — a detail many don’t realize.
  557. Often, On Mars, sunsets appear blue because of dust scattering sunlight. — a detail many don’t realize.
  558. Sometimes, On Mars, sunsets appear blue because of dust scattering sunlight. — a detail many don’t realize.
  559. On Mars, sunsets appear blue because of dust scattering sunlight. — and it still holds true.
  560. Interestingly, The fact that on Mars, sunsets appear blue because of dust scattering sunlight. — and it still holds true.
  561. Surprisingly, On Mars, sunsets appear blue because of dust scattering sunlight. — and it still holds true.
  562. Remarkably, On Mars, sunsets appear blue because of dust scattering sunlight. — and it still holds true.
  563. In fact, On Mars, sunsets appear blue because of dust scattering sunlight. — and it still holds true.
  564. Often, On Mars, sunsets appear blue because of dust scattering sunlight. — and it still holds true.
  565. Sometimes, The fact that on Mars, sunsets appear blue because of dust scattering sunlight. — and it still holds true.
  566. On Mars, sunsets appear blue because of dust scattering sunlight. — a neat bit of trivia.
  567. Interestingly, On Mars, sunsets appear blue because of dust scattering sunlight. — a neat bit of trivia.
  568. Surprisingly, On Mars, sunsets appear blue because of dust scattering sunlight. — a neat bit of trivia.
  569. Remarkably, On Mars, sunsets appear blue because of dust scattering sunlight. — a neat bit of trivia.
  570. In fact, The fact that on Mars, sunsets appear blue because of dust scattering sunlight. — a neat bit of trivia.
  571. Often, On Mars, sunsets appear blue because of dust scattering sunlight. — a neat bit of trivia.
  572. Sometimes, On Mars, sunsets appear blue because of dust scattering sunlight. — a neat bit of trivia.
  573. On Mars, sunsets appear blue because of dust scattering sunlight.
  574. Interestingly, On Mars, sunsets appear blue because of dust scattering sunlight.
  575. Surprisingly, The fact that on Mars, sunsets appear blue because of dust scattering sunlight.
  576. Remarkably, On Mars, sunsets appear blue because of dust scattering sunlight.
  577. In fact, On Mars, sunsets appear blue because of dust scattering sunlight.
  578. Often, On Mars, sunsets appear blue because of dust scattering sunlight.
  579. The fact that mercury has water ice trapped in permanently shadowed craters near its poles.
  580. Interestingly, Mercury has water ice trapped in permanently shadowed craters near its poles.
  581. Surprisingly, Mercury has water ice trapped in permanently shadowed craters near its poles.
  582. Remarkably, Mercury has water ice trapped in permanently shadowed craters near its poles.
  583. In fact, Mercury has water ice trapped in permanently shadowed craters near its poles.
  584. Often, The fact that mercury has water ice trapped in permanently shadowed craters near its poles.
  585. Sometimes, Mercury has water ice trapped in permanently shadowed craters near its poles.
  586. Mercury has water ice trapped in permanently shadowed craters near its poles. — a detail many don’t realize.
  587. Interestingly, Mercury has water ice trapped in permanently shadowed craters near its poles. — a detail many don’t realize.
  588. Surprisingly, Mercury has water ice trapped in permanently shadowed craters near its poles. — a detail many don’t realize.
  589. Remarkably, The fact that mercury has water ice trapped in permanently shadowed craters near its poles. — a detail many don’t realize.
  590. In fact, Mercury has water ice trapped in permanently shadowed craters near its poles. — a detail many don’t realize.
  591. Often, Mercury has water ice trapped in permanently shadowed craters near its poles. — a detail many don’t realize.
  592. Sometimes, Mercury has water ice trapped in permanently shadowed craters near its poles. — a detail many don’t realize.
  593. Mercury has water ice trapped in permanently shadowed craters near its poles. — and it still holds true.
  594. Interestingly, The fact that mercury has water ice trapped in permanently shadowed craters near its poles. — and it still holds true.
  595. Surprisingly, Mercury has water ice trapped in permanently shadowed craters near its poles. — and it still holds true.
  596. Remarkably, Mercury has water ice trapped in permanently shadowed craters near its poles. — and it still holds true.
  597. In fact, Mercury has water ice trapped in permanently shadowed craters near its poles. — and it still holds true.
  598. Often, Mercury has water ice trapped in permanently shadowed craters near its poles. — and it still holds true.
  599. Sometimes, The fact that mercury has water ice trapped in permanently shadowed craters near its poles. — and it still holds true.
  600. Mercury has water ice trapped in permanently shadowed craters near its poles. — a neat bit of trivia.
  601. Interestingly, Mercury has water ice trapped in permanently shadowed craters near its poles. — a neat bit of trivia.
  602. Surprisingly, Mercury has water ice trapped in permanently shadowed craters near its poles. — a neat bit of trivia.
  603. Remarkably, Mercury has water ice trapped in permanently shadowed craters near its poles. — a neat bit of trivia.
  604. In fact, The fact that mercury has water ice trapped in permanently shadowed craters near its poles. — a neat bit of trivia.
  605. Often, Mercury has water ice trapped in permanently shadowed craters near its poles. — a neat bit of trivia.
  606. Sometimes, Mercury has water ice trapped in permanently shadowed craters near its poles. — a neat bit of trivia.
  607. Mercury has water ice trapped in permanently shadowed craters near its poles.
  608. Interestingly, Mercury has water ice trapped in permanently shadowed craters near its poles.
  609. Surprisingly, The fact that mercury has water ice trapped in permanently shadowed craters near its poles.
  610. Remarkably, Mercury has water ice trapped in permanently shadowed craters near its poles.
  611. In fact, Mercury has water ice trapped in permanently shadowed craters near its poles.
  612. Often, Mercury has water ice trapped in permanently shadowed craters near its poles.
  613. The fact that space is actually not empty—there are stray atoms, dust, and light throughout.
  614. Interestingly, Space is not empty—there are actually stray atoms, dust, and light throughout.
  615. Surprisingly, Space is not empty—there are stray atoms, dust, and light throughout.
  616. Remarkably, Space is not empty—there are stray atoms, dust, and light throughout.
  617. In fact, Space is actually not empty—there are stray atoms, dust, and light throughout.
  618. Often, The fact that space is not empty—there are actually stray atoms, dust, and light throughout.
  619. Sometimes, Space is not empty—there are stray atoms, dust, and light throughout.
  620. Space is not empty—there are stray atoms, dust, and light throughout. — a detail many don’t realize.
  621. Interestingly, Space is actually not empty—there are stray atoms, dust, and light throughout. — a detail many don’t realize.
  622. Surprisingly, Space is not empty—there are actually stray atoms, dust, and light throughout. — a detail many don’t realize.
  623. Remarkably, The fact that space is not empty—there are stray atoms, dust, and light throughout. — a detail many don’t realize.
  624. In fact, Space is not empty—there are stray atoms, dust, and light throughout. — a detail many don’t realize.
  625. Often, Space is actually not empty—there are stray atoms, dust, and light throughout. — a detail many don’t realize.
  626. Sometimes, Space is not empty—there are actually stray atoms, dust, and light throughout. — a detail many don’t realize.
  627. Space is not empty—there are stray atoms, dust, and light throughout. — and it still holds true.
  628. Interestingly, The fact that space is not empty—there are stray atoms, dust, and light throughout. — and it still holds true.
  629. Surprisingly, Space is actually not empty—there are stray atoms, dust, and light throughout. — and it still holds true.
  630. Remarkably, Space is not empty—there are actually stray atoms, dust, and light throughout. — and it still holds true.
  631. In fact, Space is not empty—there are stray atoms, dust, and light throughout. — and it still holds true.
  632. Often, Space is not empty—there are stray atoms, dust, and light throughout. — and it still holds true.
  633. Sometimes, The fact that space is actually not empty—there are stray atoms, dust, and light throughout. — and it still holds true.
  634. Space is not empty—there are actually stray atoms, dust, and light throughout. — a neat bit of trivia.
  635. Interestingly, Space is not empty—there are stray atoms, dust, and light throughout. — a neat bit of trivia.
  636. Surprisingly, Space is not empty—there are stray atoms, dust, and light throughout. — a neat bit of trivia.
  637. Remarkably, Space is actually not empty—there are stray atoms, dust, and light throughout. — a neat bit of trivia.
  638. In fact, The fact that space is not empty—there are actually stray atoms, dust, and light throughout. — a neat bit of trivia.
  639. Often, Space is not empty—there are stray atoms, dust, and light throughout. — a neat bit of trivia.
  640. Sometimes, Space is not empty—there are stray atoms, dust, and light throughout. — a neat bit of trivia.
  641. Space is actually not empty—there are stray atoms, dust, and light throughout.
  642. Interestingly, Space is not empty—there are actually stray atoms, dust, and light throughout.
  643. Surprisingly, The fact that space is not empty—there are stray atoms, dust, and light throughout.
  644. Remarkably, Space is not empty—there are stray atoms, dust, and light throughout.
  645. In fact, Space is actually not empty—there are stray atoms, dust, and light throughout.
  646. Often, Space is not empty—there are actually stray atoms, dust, and light throughout.
  647. The fact that the Kuiper Belt is actually a vast ring of icy bodies beyond Neptune.
  648. Interestingly, The Kuiper Belt is a vast ring of icy bodies beyond Neptune.
  649. Surprisingly, The Kuiper Belt is a vast ring of icy bodies beyond Neptune.
  650. Remarkably, The Kuiper Belt is a vast ring of icy bodies beyond Neptune.
  651. In fact, The Kuiper Belt is actually a vast ring of icy bodies beyond Neptune.
  652. Often, The fact that the Kuiper Belt is a vast ring of icy bodies beyond Neptune.
  653. Sometimes, The Kuiper Belt is a vast ring of icy bodies beyond Neptune.
  654. The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a detail many don’t realize.
  655. Interestingly, The Kuiper Belt is actually a vast ring of icy bodies beyond Neptune. — a detail many don’t realize.
  656. Surprisingly, The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a detail many don’t realize.
  657. Remarkably, The fact that the Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a detail many don’t realize.
  658. In fact, The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a detail many don’t realize.
  659. Often, The Kuiper Belt is actually a vast ring of icy bodies beyond Neptune. — a detail many don’t realize.
  660. Sometimes, The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a detail many don’t realize.
  661. The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — and it still holds true.
  662. Interestingly, The fact that the Kuiper Belt is a vast ring of icy bodies beyond Neptune. — and it still holds true.
  663. Surprisingly, The Kuiper Belt is actually a vast ring of icy bodies beyond Neptune. — and it still holds true.
  664. Remarkably, The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — and it still holds true.
  665. In fact, The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — and it still holds true.
  666. Often, The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — and it still holds true.
  667. Sometimes, The fact that the Kuiper Belt is actually a vast ring of icy bodies beyond Neptune. — and it still holds true.
  668. The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a neat bit of trivia.
  669. Interestingly, The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a neat bit of trivia.
  670. Surprisingly, The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a neat bit of trivia.
  671. Remarkably, The Kuiper Belt is actually a vast ring of icy bodies beyond Neptune. — a neat bit of trivia.
  672. In fact, The fact that the Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a neat bit of trivia.
  673. Often, The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a neat bit of trivia.
  674. Sometimes, The Kuiper Belt is a vast ring of icy bodies beyond Neptune. — a neat bit of trivia.
  675. The Kuiper Belt is actually a vast ring of icy bodies beyond Neptune.
  676. Interestingly, The Kuiper Belt is a vast ring of icy bodies beyond Neptune.
  677. Surprisingly, The fact that the Kuiper Belt is a vast ring of icy bodies beyond Neptune.
  678. Remarkably, The Kuiper Belt is a vast ring of icy bodies beyond Neptune.
  679. In fact, The Kuiper Belt is actually a vast ring of icy bodies beyond Neptune.
  680. Often, The Kuiper Belt is a vast ring of icy bodies beyond Neptune.
  681. The fact that a day on Uranus is actually about 17 hours, but the planet is actually tilted so far it rotates sideways.
  682. Interestingly, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways.
  683. Surprisingly, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways.
  684. Remarkably, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways.
  685. In fact, A day on Uranus is actually about 17 hours, but the planet is actually tilted so far it rotates sideways.
  686. Often, The fact that a day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways.
  687. Sometimes, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways.
  688. A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a detail many don’t realize.
  689. Interestingly, A day on Uranus is actually about 17 hours, but the planet is actually tilted so far it rotates sideways. — a detail many don’t realize.
  690. Surprisingly, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a detail many don’t realize.
  691. Remarkably, The fact that a day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a detail many don’t realize.
  692. In fact, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a detail many don’t realize.
  693. Often, A day on Uranus is actually about 17 hours, but the planet is actually tilted so far it rotates sideways. — a detail many don’t realize.
  694. Sometimes, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a detail many don’t realize.
  695. A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — and it still holds true.
  696. Interestingly, The fact that a day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — and it still holds true.
  697. Surprisingly, A day on Uranus is actually about 17 hours, but the planet is actually tilted so far it rotates sideways. — and it still holds true.
  698. Remarkably, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — and it still holds true.
  699. In fact, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — and it still holds true.
  700. Often, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — and it still holds true.
  701. Sometimes, The fact that a day on Uranus is actually about 17 hours, but the planet is actually tilted so far it rotates sideways. — and it still holds true.
  702. A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a neat bit of trivia.
  703. Interestingly, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a neat bit of trivia.
  704. Surprisingly, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a neat bit of trivia.
  705. Remarkably, A day on Uranus is actually about 17 hours, but the planet is actually tilted so far it rotates sideways. — a neat bit of trivia.
  706. In fact, The fact that a day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a neat bit of trivia.
  707. Often, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a neat bit of trivia.
  708. Sometimes, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways. — a neat bit of trivia.
  709. A day on Uranus is actually about 17 hours, but the planet is actually tilted so far it rotates sideways.
  710. Interestingly, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways.
  711. Surprisingly, The fact that a day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways.
  712. Remarkably, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways.
  713. In fact, A day on Uranus is actually about 17 hours, but the planet is actually tilted so far it rotates sideways.
  714. Often, A day on Uranus is about 17 hours, but the planet is tilted so far it rotates sideways.
  715. The fact that the Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  716. Interestingly, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  717. Surprisingly, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  718. Remarkably, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  719. In fact, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  720. Often, The fact that the Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  721. Sometimes, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  722. The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a detail many don’t realize.
  723. Interestingly, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a detail many don’t realize.
  724. Surprisingly, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a detail many don’t realize.
  725. Remarkably, The fact that the Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a detail many don’t realize.
  726. In fact, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a detail many don’t realize.
  727. Often, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a detail many don’t realize.
  728. Sometimes, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a detail many don’t realize.
  729. The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — and it still holds true.
  730. Interestingly, The fact that the Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — and it still holds true.
  731. Surprisingly, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — and it still holds true.
  732. Remarkably, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — and it still holds true.
  733. In fact, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — and it still holds true.
  734. Often, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — and it still holds true.
  735. Sometimes, The fact that the Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — and it still holds true.
  736. The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a neat bit of trivia.
  737. Interestingly, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a neat bit of trivia.
  738. Surprisingly, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a neat bit of trivia.
  739. Remarkably, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a neat bit of trivia.
  740. In fact, The fact that the Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a neat bit of trivia.
  741. Often, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a neat bit of trivia.
  742. Sometimes, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky. — a neat bit of trivia.
  743. The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  744. Interestingly, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  745. Surprisingly, The fact that the Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  746. Remarkably, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  747. In fact, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  748. Often, The Hubble Deep Field revealed thousands of galaxies in what looked like empty sky.
  749. The fact that venus spins backwards compared to most planets—its rotation is actually retrograde.
  750. Interestingly, Venus spins backwards compared to most planets—its rotation is retrograde.
  751. Surprisingly, Venus spins backwards compared to most planets—its rotation is retrograde.
  752. Remarkably, Venus spins backwards compared to most planets—its rotation is retrograde.
  753. In fact, Venus spins backwards compared to most planets—its rotation is actually retrograde.
  754. Often, The fact that venus spins backwards compared to most planets—its rotation is retrograde.
  755. Sometimes, Venus spins backwards compared to most planets—its rotation is retrograde.
  756. Venus spins backwards compared to most planets—its rotation is retrograde. — a detail many don’t realize.
  757. Interestingly, Venus spins backwards compared to most planets—its rotation is actually retrograde. — a detail many don’t realize.
  758. Surprisingly, Venus spins backwards compared to most planets—its rotation is retrograde. — a detail many don’t realize.
  759. Remarkably, The fact that venus spins backwards compared to most planets—its rotation is retrograde. — a detail many don’t realize.
  760. In fact, Venus spins backwards compared to most planets—its rotation is retrograde. — a detail many don’t realize.
  761. Often, Venus spins backwards compared to most planets—its rotation is actually retrograde. — a detail many don’t realize.
  762. Sometimes, Venus spins backwards compared to most planets—its rotation is retrograde. — a detail many don’t realize.
  763. Venus spins backwards compared to most planets—its rotation is retrograde. — and it still holds true.
  764. Interestingly, The fact that venus spins backwards compared to most planets—its rotation is retrograde. — and it still holds true.
  765. Surprisingly, Venus spins backwards compared to most planets—its rotation is actually retrograde. — and it still holds true.
  766. Remarkably, Venus spins backwards compared to most planets—its rotation is retrograde. — and it still holds true.
  767. In fact, Venus spins backwards compared to most planets—its rotation is retrograde. — and it still holds true.
  768. Often, Venus spins backwards compared to most planets—its rotation is retrograde. — and it still holds true.
  769. Sometimes, The fact that venus spins backwards compared to most planets—its rotation is actually retrograde. — and it still holds true.
  770. Venus spins backwards compared to most planets—its rotation is retrograde. — a neat bit of trivia.
  771. Interestingly, Venus spins backwards compared to most planets—its rotation is retrograde. — a neat bit of trivia.
  772. Surprisingly, Venus spins backwards compared to most planets—its rotation is retrograde. — a neat bit of trivia.
  773. Remarkably, Venus spins backwards compared to most planets—its rotation is actually retrograde. — a neat bit of trivia.
  774. In fact, The fact that venus spins backwards compared to most planets—its rotation is retrograde. — a neat bit of trivia.
  775. Often, Venus spins backwards compared to most planets—its rotation is retrograde. — a neat bit of trivia.
  776. Sometimes, Venus spins backwards compared to most planets—its rotation is retrograde. — a neat bit of trivia.
  777. Venus spins backwards compared to most planets—its rotation is actually retrograde.
  778. Interestingly, Venus spins backwards compared to most planets—its rotation is retrograde.
  779. Surprisingly, The fact that venus spins backwards compared to most planets—its rotation is retrograde.
  780. Remarkably, Venus spins backwards compared to most planets—its rotation is retrograde.
  781. In fact, Venus spins backwards compared to most planets—its rotation is actually retrograde.
  782. Often, Venus spins backwards compared to most planets—its rotation is retrograde.
  783. The fact that an astronaut in low Earth orbit is actually in continuous free fall, creating weightlessness.
  784. Interestingly, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness.
  785. Surprisingly, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness.
  786. Remarkably, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness.
  787. In fact, An astronaut in low Earth orbit is actually in continuous free fall, creating weightlessness.
  788. Often, The fact that an astronaut in low Earth orbit is in continuous free fall, creating weightlessness.
  789. Sometimes, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness.
  790. An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a detail many don’t realize.
  791. Interestingly, An astronaut in low Earth orbit is actually in continuous free fall, creating weightlessness. — a detail many don’t realize.
  792. Surprisingly, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a detail many don’t realize.
  793. Remarkably, The fact that an astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a detail many don’t realize.
  794. In fact, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a detail many don’t realize.
  795. Often, An astronaut in low Earth orbit is actually in continuous free fall, creating weightlessness. — a detail many don’t realize.
  796. Sometimes, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a detail many don’t realize.
  797. An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — and it still holds true.
  798. Interestingly, The fact that an astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — and it still holds true.
  799. Surprisingly, An astronaut in low Earth orbit is actually in continuous free fall, creating weightlessness. — and it still holds true.
  800. Remarkably, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — and it still holds true.
  801. In fact, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — and it still holds true.
  802. Often, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — and it still holds true.
  803. Sometimes, The fact that an astronaut in low Earth orbit is actually in continuous free fall, creating weightlessness. — and it still holds true.
  804. An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a neat bit of trivia.
  805. Interestingly, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a neat bit of trivia.
  806. Surprisingly, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a neat bit of trivia.
  807. Remarkably, An astronaut in low Earth orbit is actually in continuous free fall, creating weightlessness. — a neat bit of trivia.
  808. In fact, The fact that an astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a neat bit of trivia.
  809. Often, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a neat bit of trivia.
  810. Sometimes, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness. — a neat bit of trivia.
  811. An astronaut in low Earth orbit is actually in continuous free fall, creating weightlessness.
  812. Interestingly, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness.
  813. Surprisingly, The fact that an astronaut in low Earth orbit is in continuous free fall, creating weightlessness.
  814. Remarkably, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness.
  815. In fact, An astronaut in low Earth orbit is actually in continuous free fall, creating weightlessness.
  816. Often, An astronaut in low Earth orbit is in continuous free fall, creating weightlessness.
  817. The fact that solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  818. Interestingly, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  819. Surprisingly, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  820. Remarkably, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  821. In fact, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  822. Often, The fact that solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  823. Sometimes, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  824. Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a detail many don’t realize.
  825. Interestingly, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a detail many don’t realize.
  826. Surprisingly, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a detail many don’t realize.
  827. Remarkably, The fact that solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a detail many don’t realize.
  828. In fact, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a detail many don’t realize.
  829. Often, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a detail many don’t realize.
  830. Sometimes, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a detail many don’t realize.
  831. Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — and it still holds true.
  832. Interestingly, The fact that solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — and it still holds true.
  833. Surprisingly, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — and it still holds true.
  834. Remarkably, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — and it still holds true.
  835. In fact, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — and it still holds true.
  836. Often, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — and it still holds true.
  837. Sometimes, The fact that solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — and it still holds true.
  838. Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a neat bit of trivia.
  839. Interestingly, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a neat bit of trivia.
  840. Surprisingly, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a neat bit of trivia.
  841. Remarkably, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a neat bit of trivia.
  842. In fact, The fact that solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a neat bit of trivia.
  843. Often, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a neat bit of trivia.
  844. Sometimes, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field. — a neat bit of trivia.
  845. Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  846. Interestingly, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  847. Surprisingly, The fact that solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  848. Remarkably, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  849. In fact, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  850. Often, Solar wind from the Sun helps create auroras when it hits Earth’s magnetic field.
  851. The fact that phobos, a moon of Mars, is actually slowly spiraling inward and will eventually break apart.
  852. Interestingly, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart.
  853. Surprisingly, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart.
  854. Remarkably, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart.
  855. In fact, Phobos, a moon of Mars, is actually slowly spiraling inward and will eventually break apart.
  856. Often, The fact that phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart.
  857. Sometimes, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart.
  858. Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a detail many don’t realize.
  859. Interestingly, Phobos, a moon of Mars, is actually slowly spiraling inward and will eventually break apart. — a detail many don’t realize.
  860. Surprisingly, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a detail many don’t realize.
  861. Remarkably, The fact that phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a detail many don’t realize.
  862. In fact, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a detail many don’t realize.
  863. Often, Phobos, a moon of Mars, is actually slowly spiraling inward and will eventually break apart. — a detail many don’t realize.
  864. Sometimes, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a detail many don’t realize.
  865. Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — and it still holds true.
  866. Interestingly, The fact that phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — and it still holds true.
  867. Surprisingly, Phobos, a moon of Mars, is actually slowly spiraling inward and will eventually break apart. — and it still holds true.
  868. Remarkably, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — and it still holds true.
  869. In fact, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — and it still holds true.
  870. Often, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — and it still holds true.
  871. Sometimes, The fact that phobos, a moon of Mars, is actually slowly spiraling inward and will eventually break apart. — and it still holds true.
  872. Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a neat bit of trivia.
  873. Interestingly, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a neat bit of trivia.
  874. Surprisingly, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a neat bit of trivia.
  875. Remarkably, Phobos, a moon of Mars, is actually slowly spiraling inward and will eventually break apart. — a neat bit of trivia.
  876. In fact, The fact that phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a neat bit of trivia.
  877. Often, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a neat bit of trivia.
  878. Sometimes, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart. — a neat bit of trivia.
  879. Phobos, a moon of Mars, is actually slowly spiraling inward and will eventually break apart.
  880. Interestingly, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart.
  881. Surprisingly, The fact that phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart.
  882. Remarkably, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart.
  883. In fact, Phobos, a moon of Mars, is actually slowly spiraling inward and will eventually break apart.
  884. Often, Phobos, a moon of Mars, is slowly spiraling inward and will eventually break apart.
  885. The fact that far side of the Moon has a thicker crust than the near side, influencing its appearance.
  886. Interestingly, Far side of the Moon has a thicker crust than the near side, influencing its appearance.
  887. Surprisingly, Far side of the Moon has a thicker crust than the near side, influencing its appearance.
  888. Remarkably, Far side of the Moon has a thicker crust than the near side, influencing its appearance.
  889. In fact, Far side of the Moon has a thicker crust than the near side, influencing its appearance.
  890. Often, The fact that far side of the Moon has a thicker crust than the near side, influencing its appearance.
  891. Sometimes, Far side of the Moon has a thicker crust than the near side, influencing its appearance.
  892. Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a detail many don’t realize.
  893. Interestingly, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a detail many don’t realize.
  894. Surprisingly, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a detail many don’t realize.
  895. Remarkably, The fact that far side of the Moon has a thicker crust than the near side, influencing its appearance. — a detail many don’t realize.
  896. In fact, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a detail many don’t realize.
  897. Often, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a detail many don’t realize.
  898. Sometimes, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a detail many don’t realize.
  899. Far side of the Moon has a thicker crust than the near side, influencing its appearance. — and it still holds true.
  900. Interestingly, The fact that far side of the Moon has a thicker crust than the near side, influencing its appearance. — and it still holds true.
  901. Surprisingly, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — and it still holds true.
  902. Remarkably, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — and it still holds true.
  903. In fact, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — and it still holds true.
  904. Often, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — and it still holds true.
  905. Sometimes, The fact that far side of the Moon has a thicker crust than the near side, influencing its appearance. — and it still holds true.
  906. Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a neat bit of trivia.
  907. Interestingly, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a neat bit of trivia.
  908. Surprisingly, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a neat bit of trivia.
  909. Remarkably, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a neat bit of trivia.
  910. In fact, The fact that far side of the Moon has a thicker crust than the near side, influencing its appearance. — a neat bit of trivia.
  911. Often, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a neat bit of trivia.
  912. Sometimes, Far side of the Moon has a thicker crust than the near side, influencing its appearance. — a neat bit of trivia.
  913. Far side of the Moon has a thicker crust than the near side, influencing its appearance.
  914. Interestingly, Far side of the Moon has a thicker crust than the near side, influencing its appearance.
  915. Surprisingly, The fact that far side of the Moon has a thicker crust than the near side, influencing its appearance.
  916. Remarkably, Far side of the Moon has a thicker crust than the near side, influencing its appearance.
  917. In fact, Far side of the Moon has a thicker crust than the near side, influencing its appearance.
  918. Often, Far side of the Moon has a thicker crust than the near side, influencing its appearance.
  919. The fact that some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  920. Interestingly, Some exoplanets are actually ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  921. Surprisingly, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  922. Remarkably, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  923. In fact, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  924. Often, The fact that some exoplanets are actually ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  925. Sometimes, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  926. Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a detail many don’t realize.
  927. Interestingly, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a detail many don’t realize.
  928. Surprisingly, Some exoplanets are actually ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a detail many don’t realize.
  929. Remarkably, The fact that some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a detail many don’t realize.
  930. In fact, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a detail many don’t realize.
  931. Often, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a detail many don’t realize.
  932. Sometimes, Some exoplanets are actually ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a detail many don’t realize.
  933. Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — and it still holds true.
  934. Interestingly, The fact that some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — and it still holds true.
  935. Surprisingly, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — and it still holds true.
  936. Remarkably, Some exoplanets are actually ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — and it still holds true.
  937. In fact, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — and it still holds true.
  938. Often, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — and it still holds true.
  939. Sometimes, The fact that some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — and it still holds true.
  940. Some exoplanets are actually ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a neat bit of trivia.
  941. Interestingly, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a neat bit of trivia.
  942. Surprisingly, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a neat bit of trivia.
  943. Remarkably, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a neat bit of trivia.
  944. In fact, The fact that some exoplanets are actually ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a neat bit of trivia.
  945. Often, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a neat bit of trivia.
  946. Sometimes, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars. — a neat bit of trivia.
  947. Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  948. Interestingly, Some exoplanets are actually ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  949. Surprisingly, The fact that some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  950. Remarkably, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  951. In fact, Some exoplanets are ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  952. Often, Some exoplanets are actually ‘hot Jupiters’—gas giants orbiting extremely close to their stars.
  953. The fact that gamma-ray bursts are among the most energetic events known in the universe.
  954. Interestingly, Gamma-ray bursts are actually among the most energetic events known in the universe.
  955. Surprisingly, Gamma-ray bursts are among the most energetic events known in the universe.
  956. Remarkably, Gamma-ray bursts are among the most energetic events known in the universe.
  957. In fact, Gamma-ray bursts are among the most energetic events known in the universe.
  958. Often, The fact that gamma-ray bursts are actually among the most energetic events known in the universe.
  959. Sometimes, Gamma-ray bursts are among the most energetic events known in the universe.
  960. Gamma-ray bursts are among the most energetic events known in the universe. — a detail many don’t realize.
  961. Interestingly, Gamma-ray bursts are among the most energetic events known in the universe. — a detail many don’t realize.
  962. Surprisingly, Gamma-ray bursts are actually among the most energetic events known in the universe. — a detail many don’t realize.
  963. Remarkably, The fact that gamma-ray bursts are among the most energetic events known in the universe. — a detail many don’t realize.
  964. In fact, Gamma-ray bursts are among the most energetic events known in the universe. — a detail many don’t realize.
  965. Often, Gamma-ray bursts are among the most energetic events known in the universe. — a detail many don’t realize.
  966. Sometimes, Gamma-ray bursts are actually among the most energetic events known in the universe. — a detail many don’t realize.
  967. Gamma-ray bursts are among the most energetic events known in the universe. — and it still holds true.
  968. Interestingly, The fact that gamma-ray bursts are among the most energetic events known in the universe. — and it still holds true.
  969. Surprisingly, Gamma-ray bursts are among the most energetic events known in the universe. — and it still holds true.
  970. Remarkably, Gamma-ray bursts are actually among the most energetic events known in the universe. — and it still holds true.
  971. In fact, Gamma-ray bursts are among the most energetic events known in the universe. — and it still holds true.
  972. Often, Gamma-ray bursts are among the most energetic events known in the universe. — and it still holds true.
  973. Sometimes, The fact that gamma-ray bursts are among the most energetic events known in the universe. — and it still holds true.
  974. Gamma-ray bursts are actually among the most energetic events known in the universe. — a neat bit of trivia.
  975. Interestingly, Gamma-ray bursts are among the most energetic events known in the universe. — a neat bit of trivia.
  976. Surprisingly, Gamma-ray bursts are among the most energetic events known in the universe. — a neat bit of trivia.
  977. Remarkably, Gamma-ray bursts are among the most energetic events known in the universe. — a neat bit of trivia.
  978. In fact, The fact that gamma-ray bursts are actually among the most energetic events known in the universe. — a neat bit of trivia.
  979. Often, Gamma-ray bursts are among the most energetic events known in the universe. — a neat bit of trivia.
  980. Sometimes, Gamma-ray bursts are among the most energetic events known in the universe. — a neat bit of trivia.
  981. Gamma-ray bursts are among the most energetic events known in the universe.
  982. Interestingly, Gamma-ray bursts are actually among the most energetic events known in the universe.
  983. Surprisingly, The fact that gamma-ray bursts are among the most energetic events known in the universe.
  984. Remarkably, Gamma-ray bursts are among the most energetic events known in the universe.
  985. In fact, Gamma-ray bursts are among the most energetic events known in the universe.
  986. Often, Gamma-ray bursts are actually among the most energetic events known in the universe.
  987. The fact that black holes warp spacetime so strongly that not even light can escape beyond the event horizon.
  988. Interestingly, Black holes warp spacetime so strongly that not even light can escape beyond the event horizon.
  989. Surprisingly, Black holes warp spacetime so strongly that not even light can often escape beyond the event horizon.
  990. Remarkably, Black holes warp spacetime so strongly that not even light can escape beyond the event horizon.
  991. In fact, Black holes warp spacetime so strongly that not even light can escape beyond the event horizon.
  992. Often, The fact that black holes warp spacetime so strongly that not even light can escape beyond the event horizon.
  993. Sometimes, Black holes warp spacetime so strongly that not even light can often escape beyond the event horizon.
  994. Black holes warp spacetime so strongly that not even light can escape beyond the event horizon. — a detail many don’t realize.
  995. Interestingly, Black holes warp spacetime so strongly that not even light can escape beyond the event horizon. — a detail many don’t realize.
  996. Surprisingly, Black holes warp spacetime so strongly that not even light can escape beyond the event horizon. — a detail many don’t realize.
  997. Remarkably, The fact that black holes warp spacetime so strongly that not even light can often escape beyond the event horizon. — a detail many don’t realize.
  998. In fact, Black holes warp spacetime so strongly that not even light can escape beyond the event horizon. — a detail many don’t realize.
  999. Often, Black holes warp spacetime so strongly that not even light can escape beyond the event horizon. — a detail many don’t realize.
  1000. Sometimes, Black holes warp spacetime so strongly that not even light can escape beyond the event horizon. — a detail many don’t realize.

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