Pratique du Shadowing: Unlimited Resources From Space – Asteroid Mining - Apprendre l'anglais à l'oral avec YouTube
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Ah, casually watching a video on YouTube,
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Ah, casually watching a video on YouTube,
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on a computer more powerful than anything humanity could build a few decades ago.
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This progress and all the wonderful machines you take for granted are built on a few rare
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and precious materials with names like terbium, neodymium or tantalum.
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Getting these rare materials from the ground into your devices is ugly.
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The mining industry is responsible for air and water pollution and the destruction of entire landscapes.
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Dangerous chemicals like cyanide, sulfuric acid or chlorine are used to extract the resources,
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harming biodiversity, workers and locals.
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And rare resources are also political tools when countries restrict access to them to get their way.
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But what if we could replace the mining industry on Earth with a clean process that can't harm anyone?
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Well, we can.
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All we need to do is look up.
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Asteroids are millions of trillions of tons of rocks,
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metals and ice, leftovers from the cloud that became the planet 4.5 billion years ago.
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They can be as small as a meter or protoplanets the size of entire countries.
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Most of them are concentrated in the asteroid belt and the Kuiper belt,
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while hundreds of thousands more do their own thing between the planets.
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As space travel is becoming more feasible,
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scientists and economists have begun looking at the resources found in these asteroids.
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Even relatively small metallic asteroids may contain trillions worth of industrial and precious metals like platinum.
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And bigger asteroids like 16 Psyche could contain enough iron nickel to cover the world's metal needs for millions of years.
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At current market prices, the rare raw materials alone would be worth quadrillions of dollars.
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Well, not really, but technically.
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For example, there are more than 20 million tons of gold in the ocean's water worth roughly 750 trillion US dollars,
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but filtering out the gold would be so expensive that you'd lose money selling it.
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Right now, asteroid mining has exactly this problem.
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It's too expensive to replace mining on Earth.
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Billions of dollars worth of valuable resources in space are worthless if it costs trillions to get them.
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What makes it so hard?
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The principles behind mining an asteroid are simple.
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The basic idea is to choose an asteroid,
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move it to a place where it's easy to process,
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and then take it apart to turn into useful products.
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Unfortunately, all of this collides with fundamental problems humans have yet to solve.
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Going to space is expensive.
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It costs thousands of dollars in rocket fuel for each kilogram just to reach a low Earth orbit.
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Going further out into deep space costs thousands more.
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We need cheaper space travel to make asteroid mining profitable.
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One solution is to switch from classical rockets to electric spaceships.
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We already use electrical rocket engines for many of the space probes on science missions.
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In principle, we only need to build bigger ones.
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While electrical engines are not powerful enough to fly to space,
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they require only a tiny amount of fuel to go very far once they're in space.
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This means we don't need to spend a lot of money on fuel,
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only to transport fuel into space.
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This doesn't solve the whole cost problem,
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but it makes it easier to start our first mission.
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Now that we have an electric asteroid mining spaceship,
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we need to find the right asteroid and get it there.
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We've already successfully visited asteroids with space probes and even collected samples.
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Still, to make it easier and cheaper,
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Our first targets will probably be near-Earth asteroids.
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Asteroids that orbit, well, near Earth.
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After a few months of travel,
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our spaceship finally arrives at our asteroid.
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Weirdly formed, littered with small impact craters,
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it hasn't changed much for billions of years.
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The first thing that needs to be done is to secure the asteroid and stop it from spinning.
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There are multiple ways to do this,
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like vaporizing material with a laser or stopping the rotation with thrusters.
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Once we have a stable asteroid, we need to wait.
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Orbital mechanics are complicated, but if you push something in the right direction at exactly the right moment,
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you can move very big things with very little force.
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So, we wait for exactly the right moment.
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Our ship fires its thrusters and nudges the asteroid into a trajectory that takes it near our moon.
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The moon is useful because we can borrow its gravitational pull to put the asteroid in a stable orbit around Earth,
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which saves even more fuel.
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Again, the trip takes months,
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but all the time since our ship was launched has not been wasted.
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The first space mining and processing equipment has been installed in orbit and is now carefully moving towards the asteroid.
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The processor works very differently than on Earth.
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Giant mirrors focus sunlight and heat up asteroid rock to boil out the gases.
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Grinders break up the dried rocks into gravel and dust,
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and centrifuges separate dents from light elements.
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Even if we only extract 0.01% of the asteroid's mass in precious metals,
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this is still several times more than you'd get from the same amount of ore on the ground.
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But what now?
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How do we get our precious metals safely back to ground?
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There are a few ways,
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like loading it into reusable rockets that return to Earth from space.
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Or if our processor contains 3D printers,
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we can print a faster and cheaper delivery system.
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Heat-shielded capsules filled with gas bubbles.
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These can just be dropped into the oceans where ships tow them away.
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This could be the starting point of humanity's first real steps towards colonizing the solar system.
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As our infrastructure and experience grows,
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our missions get more and more sophisticated.
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Parts and fuel produced on asteroids don't have to be launched from Earth at all.
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The first mining operation makes the second one easier and so on.
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While the space industry grows and precious materials become cheaper,
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eventually we could stop mining on Earth.
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Even the idea of toxic mining down here might become something weird and anachronistic,
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like having an open fire in your living room.
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Landscapes ravaged by pollution will heal,
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while the technological wonders we're used to get cheaper and less toxic to make.
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None of this is science fiction.
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We don't need fancy materials or new physics to make asteroid mining happen.
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We could start building this future today.
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All we need is an initial push.
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Why practice speaking with this video?
This video, titled "Unlimited Resources From Space – Asteroid Mining", presents an engaging discussion about the future possibilities of asteroid mining. By practicing speaking using this video, you can immerse yourself in a context that combines technology and environmental issues. Engaging with complex topics helps expand your vocabulary and sparks critical thinking, which are essential for fluency. Moreover, by practicing shadowing, you can mimic the speaker's intonation and rhythm, which will enhance your English speaking practice. This approach is beneficial for learners who want to improve their English pronunciation while discussing relevant and intriguing content.
Grammar & Expressions in Context
Within the transcript, several grammatical structures and expressions stand out, serving as excellent examples for learners:
- Conditional Sentences: The phrase "What if we could replace the mining industry..." uses a conditional structure to speculate about future possibilities. This structure is vital for expressing hypothetical situations.
- Passive Voice: The use of "are built on" and "is responsible for" emphasizes the action rather than the subject. Passive voice is useful in academic and formal contexts, allowing you to shift focus in your speech.
- Inversion for Emphasis: The expression "Well, not really. But technically." showcases an inverted sentence for emphasis. This technique can add depth to your speech, making your arguments more persuasive.
- Complex Sentences: Sentences like "Unfortunately all of this collides with fundamental problems humans have yet to solve." highlight the importance of using subordinate clauses to convey detailed information. Learning to structure complex sentences will help you articulate your thoughts more effectively.
Common Pronunciation Traps
As you shadow the speaker in this video, be attentive to certain pronunciation challenges:
- Words like "Tantalum" and "Neodymium": These technical terms can be difficult to pronounce due to their uncommon syllable structures. Practicing these words will enhance your technical vocabulary.
- “Asteroid”: The middle syllable can be tricky; ensure you pronounce it as "AST-er-oid" rather than "AS-ter-oid."
- Intonation: Pay attention to the speaker's intonation, especially at the end of sentences. Mimicking the rise and fall in their speech will improve your overall English pronunciation.
Utilize this video as a shadowing site for your shadow speak practice, helping you effectively improve English pronunciation while discussing fascinating topics. By integrating ideas from this video into your speech, you will not only enhance your fluency but also enrich your conversations in English!
Qu'est-ce que la technique du Shadowing ?
Le Shadowing est une technique d'apprentissage des langues fondée sur la science, développée à l'origine pour la formation des interprètes professionnels. Le principe est simple mais puissant : vous écoutez de l'anglais natif et le répétez immédiatement à voix haute — comme une ombre suivant le locuteur avec un décalage de 1 à 2 secondes. Les recherches montrent une amélioration significative de la précision de la prononciation, de l'intonation, du rythme, des liaisons, de la compréhension orale et de la fluidité.
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