20,000 LEAGUES UNDER THE SEA (With All Original Illustrations). Jules Verne

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20,000 LEAGUES UNDER THE SEA (With All Original Illustrations) - Jules Verne


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tone, “you’ll just keep on believing in the existence of some enormous cetacean… ?”

      “Yes, Ned, I repeat it with a conviction backed by factual logic. I believe in the existence of a mammal with a powerful constitution, belonging to the vertebrate branch like baleen whales, sperm whales, or dolphins, and armed with a tusk made of horn that has tremendous penetrating power.”

      “Humph!” the harpooner put in, shaking his head with the attitude of a man who doesn’t want to be convinced.

      “Note well, my fine Canadian,” I went on, “if such an animal exists, if it lives deep in the ocean, if it frequents the liquid strata located miles beneath the surface of the water, it needs to have a constitution so solid, it defies all comparison.”

      “And why this powerful constitution?” Ned asked.

      “Because it takes incalculable strength just to live in those deep strata and withstand their pressure.”

      “Oh really?” Ned said, tipping me a wink.

      “Oh really, and I can prove it to you with a few simple figures.”

      “Bosh!” Ned replied. “You can make figures do anything you want!”

      “In business, Ned, but not in mathematics. Listen to me. Let’s accept that the pressure of one atmosphere is represented by the pressure of a column of water thirty-two feet high. In reality, such a column of water wouldn’t be quite so high because here we’re dealing with salt water, which is denser than fresh water. Well then, when you dive under the waves, Ned, for every thirty-two feet of water above you, your body is tolerating the pressure of one more atmosphere, in other words, one more kilogram per each square centimeter on your body’s surface. So it follows that at 320 feet down, this pressure is equal to ten atmospheres, to 100 atmospheres at 3,200 feet, and to 1,000 atmospheres at 32,000 feet, that is, at about two and a half vertical leagues down. Which is tantamount to saying that if you could reach such a depth in the ocean, each square centimeter on your body’s surface would be experiencing 1,000 kilograms of pressure. Now, my gallant Ned, do you know how many square centimeters you have on your bodily surface?”

      “I haven’t the foggiest notion, Professor Aronnax.”

      “About 17,000.”

      “As many as that?”

      “Yes, and since the atmosphere’s pressure actually weighs slightly more than one kilogram per square centimeter, your 17,000 square centimeters are tolerating 17,568 kilograms at this very moment.”

      “Without my noticing it?”

      “Without your noticing it. And if you aren’t crushed by so much pressure, it’s because the air penetrates the interior of your body with equal pressure. When the inside and outside pressures are in perfect balance, they neutralize each other and allow you to tolerate them without discomfort. But in the water it’s another story.”

      “Yes, I see,” Ned replied, growing more interested. “Because the water surrounds me but doesn’t penetrate me.”

      “Precisely, Ned. So at thirty-two feet beneath the surface of the sea, you’ll undergo a pressure of 17,568 kilograms; at 320 feet, or ten times greater pressure, it’s 175,680 kilograms; at 3,200 feet, or 100 times greater pressure, it’s 1,756,800 kilograms; finally, at 32,000 feet, or 1,000 times greater pressure, it’s 17,568,000 kilograms; in other words, you’d be squashed as flat as if you’d just been yanked from between the plates of a hydraulic press!”

      “Fire and brimstone!” Ned put in.

      “All right then, my fine harpooner, if vertebrates several hundred meters long and proportionate in bulk live at such depths, their surface areas make up millions of square centimeters, and the pressure they undergo must be assessed in billions of kilograms. Calculate, then, how much resistance of bone structure and strength of constitution they’d need in order to withstand such pressures!”

      “They’d need to be manufactured,” Ned Land replied, “from sheet-iron plates eight inches thick, like ironclad frigates.”

      “Right, Ned, and then picture the damage such a mass could inflict if it were launched with the speed of an express train against a ship’s hull.”

      “Yes… indeed… maybe,” the Canadian replied, staggered by these figures but still not willing to give in.

      “Well, have I convinced you?”

      “You’ve convinced me of one thing, Mr. Naturalist. That deep in the sea, such animals would need to be just as strong as you say—if they exist.”

      “But if they don’t exist, my stubborn harpooner, how do you explain the accident that happened to the Scotia?”

      “It’s maybe…,” Ned said, hesitating.

      “Go on!”

      “Because… it just couldn’t be true!” the Canadian replied, unconsciously echoing a famous catchphrase of the scientist Arago.

      But this reply proved nothing, other than how bullheaded the harpooner could be. That day I pressed him no further. The Scotia’s accident was undeniable. Its hole was real enough that it had to be plugged up, and I don’t think a hole’s existence can be more emphatically proven. Now then, this hole didn’t make itself, and since it hadn’t resulted from underwater rocks or underwater machines, it must have been caused by the perforating tool of some animal.

      Now, for all the reasons put forward to this point, I believed that this animal was a member of the branch Vertebrata, class Mammalia, group Pisciforma, and finally, order Cetacea. As for the family in which it would be placed (baleen whale, sperm whale, or dolphin), the genus to which it belonged, and the species in which it would find its proper home, these questions had to be left for later. To answer them called for dissecting this unknown monster; to dissect it called for catching it; to catch it called for harpooning it—which was Ned Land’s business; to harpoon it called for sighting it—which was the crew’s business; and to sight it called for encountering it—which was a chancy business.

      5. At Random!

      FOR SOME WHILE the voyage of the Abraham Lincoln was marked by no incident. But one circumstance arose that displayed Ned Land’s marvelous skills and showed just how much confidence we could place in him.

      Off the Falkland Islands on June 30, the frigate came in contact with a fleet of American whalers, and we learned that they hadn’t seen the narwhale. But one of them, the captain of the Monroe, knew that Ned Land had shipped aboard the Abraham Lincoln and asked his help in hunting a baleen whale that was in sight. Anxious to see Ned Land at work, Commander Farragut authorized him to make his way aboard the Monroe. And the Canadian had such good luck that with a right-and-left shot, he harpooned not one whale but two, striking the first straight to the heart and catching the other after a few minutes’ chase!

      Assuredly, if the monster ever had to deal with Ned Land’s harpoon, I wouldn’t bet on the monster.

      The frigate sailed along the east coast of South America with prodigious speed. By July 3 we were at the entrance to the Strait of Magellan, abreast of Cabo de las Virgenes. But Commander Farragut was unwilling to attempt this tortuous passageway and maneuvered instead to double Cape Horn.

      The crew sided with him unanimously. Indeed, were we likely to encounter the narwhale in such a cramped strait? Many of our sailors swore that the monster couldn’t negotiate this passageway simply because “he’s too big for it!”

      Near three o’clock in the afternoon on July 6, fifteen miles south of shore, the Abraham Lincoln doubled that solitary islet at the tip of the South American continent, that stray rock Dutch seamen had named Cape Horn after their hometown of Hoorn. Our course was set for the northwest, and the next day our frigate’s propeller finally churned the waters of the Pacific.

      “Open


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