- 2 days ago
Science is getting eerily close to what used to belong only in sci-fi movies. Imagine a sound that can travel through the air and reach only one specific person - no speakers, no headphones, no one else hearing a thing. Or a “teleporter” that doesn’t move bodies, but can instantly transfer information and quantum states across space. These breakthroughs sound unreal, but they’re real experiments happening right now in advanced labs. In this video, we break down how these technologies work, what scientists have actually achieved (and what they haven’t), and why these inventions could completely change communication, security, medicine, and the future of technology. Animation is created by Bright Side.
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This video is made for entertainment purposes. We do not make any warranties about the completeness, safety and reliability. Any action you take upon the information in this video is strictly at your own risk, and we will not be liable for any damages or losses. It is the viewer's responsibility to use judgement, care and precaution if you plan to replicate.
----------------------------------------------------------------------------------------
Music from TheSoul Sound: https://thesoul-sound.com/
Check our Bright Side podcast on Spotify and leave a positive review! https://open.spotify.com/show/0hUkPxD34jRLrMrJux4VxV
Subscribe to Bright Side: https://goo.gl/rQTJZz
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Our Social Media:
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Instagram: https://www.instagram.com/brightside.official
TikTok: https://www.tiktok.com/@brightside.official?lang=en
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https://www.depositphotos.com
https://www.shutterstock.com
https://www.eastnews.ru
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For more videos and articles visit: http://www.brightside.me
----------------------------------------------------------------------------------------
This video is made for entertainment purposes. We do not make any warranties about the completeness, safety and reliability. Any action you take upon the information in this video is strictly at your own risk, and we will not be liable for any damages or losses. It is the viewer's responsibility to use judgement, care and precaution if you plan to replicate.
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FunTranscript
00:00So, you're at a festival, and it's getting really rowdy.
00:04Your friend has gone.
00:05You're trying to grab some drinks, and you've lost sight of him.
00:07Suddenly, his voice sounds loud and...
00:10Clear in your ears, asking what drink he should get for you.
00:14Now, are we in...
00:15No, apparently, that's what scientists can do now.
00:20They've made a sound that can travel through space and reach just your ears and ears.
00:25Researchers conducted a new study and found a way to make time...
00:30Tiny pockets of sound stay in one place.
00:33These pockets don't spread around...
00:35Like normal sound, and it means we can now create sound exactly where...
00:40We want it, like sending it only to one person in a room.
00:44This discovery might...
00:45Totally change the way we enjoy music, talk to people, or experience sound.
00:50You see, sound is just vibration moving...
00:55Through the air in waves.
00:56When something moves back and forth, it pushes and pulls the...
01:00That movement creates sound waves.
01:03The speed of these waves is called...
01:05Frequency.
01:06If this frequency is low, we hear a deep sound.
01:09Like a bass drum...
01:10When the frequency is high, it produces a sharp sound like a whistle.
01:14Wee-hee!
01:15Now, at the same time, it's hard to control where sound goes, because...
01:20Of something called diffraction.
01:22This just means that sound waves like to spread out...
01:25As they move.
01:26This is even worse with low, deep sounds, which have long waves...
01:30And are harder to keep at one place.
01:32Some devices, like parametric speakers...
01:35And send sound in one direction, like a beam.
01:37Even then, the sound is still...
01:40It's hard to hurt along the whole path.
01:41It doesn't stay in one spot.
01:43But now, research...
01:45Researchers have actually figured out how to do that using something called ultrasound...
01:50And a special trick called non-linear acoustics.
01:54Now, ultrasound...
01:55Is a sound that's too high-pitched for people to hear.
01:58Anything above 20,000 hertz...
02:00Even though we can't hear it, it still travels through the air...
02:05Like a regular sound.
02:06It's used in things like medical scans.
02:09For example, ultrasound...
02:10And in some industrial tools.
02:13So, in their research, scientists...
02:15Use ultrasound to carry normal sound.
02:18They made ultrasound waves move through...
02:20The air quietly, and the actual sound only became audible right where they wanted.
02:25Now, usually, sound waves just add up when they meet.
02:29That's called linear...
02:30Nothing special happens.
02:32The sounds just mix together.
02:34But when...
02:35Sound waves are strong enough.
02:36They can act differently.
02:38They combine in a non-linear...
02:40Which can create new sounds that weren't there before.
02:43Using this knowledge...
02:45The researchers took two ultrasound beams...
02:48Each at a different high frequency.
02:50By themselves, these beams were totally silent.
02:53But when they met in space...
02:55They mixed in this non-linear way...
02:57And created a brand new sound wave...
03:00That we could hear.
03:01And that sound only appears in the spot where the beams cross.
03:05Normally, sound travels in straight lines...
03:08Unless it bounces off of something...
03:10But researchers used special materials called acoustic metasurfaces.
03:15It allowed them to bend those ultrasound beams as they moved.
03:19Kind of like...
03:20Like how glasses bend light.
03:22By changing the timing of the waves really...
03:25Precisely.
03:25They can curve the sound around objects...
03:28And make it reach an exact...
03:30Like sending it around a corner...
03:32And having it land right by your ear.
03:35Now, let's say they use one beam at 40 kilohertz...
03:38And the other at 39...
03:40When these beams meet...
03:43They create a sound at the difference...
03:45Between those two...
03:460.5 kilohertz...
03:48Or 500 hertz...
03:50Which is a frequency we can hear.
03:52But again...
03:53You only hear it right where those...
03:55Beams intersect...
03:56Everywhere else...
03:57Silence...
03:58Even so...
03:59You could say...
04:00Then sound straight to one person...
04:02Without headphones...
04:03And not disturb anyone around...
04:05Imagine walking through a museum...
04:07And hearing an audio guide...
04:09Just for you...
04:10No headphones needed...
04:12Other people nearby...
04:13Could be listening to totally different...
04:15Information...
04:16Without any sound overlapping...
04:18In a library...
04:19Students...
04:20Could listen to lessons...
04:21Without bothering the person next to them...
04:23In a car...
04:24This tech could...
04:25Let passengers...
04:26Listen to music...
04:27While the driver...
04:28Hears only the GPS directions...
04:30Oh man...
04:31In offices...
04:32It could create...
04:33Small zones...
04:34Where people...
04:35Could have...
04:35Private conversations...
04:36Without being overheard...
04:37It could also work...
04:38The other way around...
04:40By canceling noise...
04:41In a certain spot...
04:42To make things quieter...
04:43This could help people...
04:45Concentrate better at work...
04:46Or even reduce noise...
04:47In busy cities...
04:48Now...
04:49This is...
04:50This isn't something...
04:51You will be able to buy...
04:52Just yet...
04:53There are still some challenges...
04:54For one...
04:55One thing...
04:56The sound quality...
04:57Can get a bit distorted...
04:58Because of how...
04:59The ultrasound waves...
05:00To interact...
05:01Also...
05:02Turning ultrasound...
05:03Into sound you can hear...
05:04Takes a lot of...
05:05Energy...
05:06Which makes it...
05:07Less efficient...
05:08Right now...
05:09Still...
05:10The idea of creating...
05:10Audio bubbles...
05:11Is...
05:12Absolutely...
05:13Fantastic...
05:14It's not the only recent...
05:15Invention...
05:16That explores sound...
05:17How about...
05:18AI headphones...
05:19That allow you to...
05:20Focus...
05:21On just one voice...
05:22You might say...
05:23That these days...
05:24We already have noise...
05:25Canceling headphones...
05:26That can block out sound...
05:27But you really...
05:28Don't get to choose...
05:29What to...
05:30Focus on...
05:31Or when...
05:32But researchers...
05:33From the University of Washington...
05:34Have come up...
05:35With a smart solution...
05:36They've built...
05:37A system...
05:38Called...
05:39Target Speech...
05:40That works with...
05:41AI...
05:42And headphones...
05:43You just...
05:43Look at the person...
05:44You want to hear...
05:45For about...
05:46Three to five seconds...
05:47And the headphones...
05:48Will lock on...
05:49To their voice...
05:50After that...
05:51The headphones...
05:52Block out...
05:53All the other sounds...
05:54Around you...
05:55And play...
05:55Only that person's voice...
05:56In real time...
05:57And even if...
05:58You're in a loud place...
05:59Or you...
06:00Walk around...
06:01And aren't...
06:02Facing them anymore...
06:03It still works...
06:04The headphones...
06:05Aren't for sale yet...
06:06But the code...
06:07Is out there...
06:08And others...
06:09Can't experiment with it...
06:10Let's dive deeper...
06:11Into how it all works...
06:12You...
06:13Wear regular headphones...
06:14That have built-in...
06:15And microphones...
06:16When you want to hear someone...
06:17You just press a button...
06:18And look at them...
06:19While...
06:20While they're speaking...
06:21The system...
06:22Figures out...
06:23Who you want to hear...
06:24By measuring...
06:25When they're...
06:25The voice...
06:26Hits both microphones...
06:27At the same time...
06:28There's a small margin of error...
06:29But it works...
06:30Pretty well...
06:31That sound...
06:32Is then sent...
06:33To a small computer...
06:34Built into the headset...
06:35The AI software...
06:36Listens...
06:37And learns the voice...
06:38You've chosen...
06:39From that point...
06:40Going on...
06:41The system...
06:42Keeps picking out...
06:43That person's voice...
06:44And playing it...
06:45Clearly to you...
06:45Even if you're both...
06:46Moving around...
06:47The more that person...
06:48Talks...
06:49The better the system...
06:50It gets at...
06:51Recognizing...
06:52And focusing on them...
06:53They tested this...
06:54On 21 people...
06:55And on average...
06:56The sound...
06:57Of the selected voice...
06:58Was rated nearly...
06:59Twice as clear...
07:00As the normal...
07:01Unfiltered sound...
07:02Now...
07:03Right now...
07:04The system can only...
07:05Focus on one...
07:06Speaker at a time...
07:07And it has trouble...
07:08If another loud voice...
07:09Is coming...
07:10From the same direction...
07:11But...
07:12If the sound...
07:13Isn't clear enough...
07:14You can just do...
07:15Another enrollment...
07:16To help it improve...
07:17They're now working...
07:18On making the text...
07:19Small enough...
07:20To fit into...
07:21Earbuds...
07:22And hearing aids...
07:23Scientists have also...
07:24Found that the...
07:25Human ear...
07:26Itself...
07:27Has hidden modes...
07:28Researchers at...
07:29Yale University...
07:30We're just trying...
07:31To figure out...
07:32How our ears...
07:33Can pick up...
07:34Super quiet sounds...
07:35And be in the...
07:35Process...
07:36They discovered...
07:37A hidden way...
07:38That the ear...
07:39Might handle...
07:40Low frequency sounds...
07:40You know...
07:41Those deep...
07:42Rumbling ones...
07:43It helps us...
07:44Hear better...
07:45Without getting...
07:45Welled by noise...
07:46Scientists think...
07:47That the cochlea...
07:48Which is the...
07:49Spiral-shaped part...
07:50Of the inner ear...
07:51Might be using...
07:52A whole set...
07:53Of low frequency...
07:54Mechanical modes...
07:55Basically...
07:56When sound comes...
07:57Into your ear...
07:58It creates...
07:59Tiny vibrations...
08:00That travel...
08:01Through the cochlea...
08:02Inside...
08:03Little hairs...
08:04On a membrane...
08:05Those vibrations...
08:06And send signals...
08:07To your brain...
08:08So you can hear...
08:09The problem...
08:10Is that these vibrations...
08:11Can weaken...
08:12As they travel...
08:13Making sounds...
08:14Dull...
08:15Or...
08:15Quiet...
08:16Now...
08:17We already knew...
08:18That certain parts...
08:19Of these hair cells...
08:20Can boost...
08:20Signals...
08:21With a well-timed kick...
08:22To make the sounds...
08:23Clear...
08:24Kind of like...
08:25A built-in amplifier...
08:25But now...
08:26It looks like...
08:27The ear has another trick...
08:28Up its sleeve...
08:29It can...
08:30Also tune...
08:31And boost...
08:32Sound...
08:33More broadly...
08:34Especially...
08:35For low-frequency sounds...
08:35And it does this...
08:36Without making up...
08:37Fake sounds...
08:38Or overreacting...
08:40New models...
08:41Showed...
08:42That the hair cells...
08:43Can work...
08:44Not just individually...
08:45But also in large...
08:45Of groups...
08:46All at once...
08:47This lets the ear...
08:48Adapt and control...
08:49How it processes...
08:50Vibrations...
08:51For lower-pitched sounds...
08:53Even big sections...
08:54Of the membrane...
08:55And the cochlea...
08:56Can work together...
08:57To keep the sound...
08:58Clear...
08:59And avoid...
09:00Overwhelm...
09:00Of the system...
09:01This discovery...
09:02Might explain...
09:03How we're able to hear...
09:04Such quiet...
09:05Low...
09:05Sounds...
09:06In the first place...
09:07Just imagine...
09:08You don't have to...
09:09Spend money on...
09:10Tickets...
09:11You won't be...
09:12Queuing up at the airport...
09:13You don't need to...
09:14Fly in a plane...
09:15For several hours...
09:15Imagine that...
09:16A long journey...
09:17From your home...
09:18To some exotic country...
09:20It takes...
09:21A couple of seconds...
09:22Yep...
09:23We're talking about...
09:24Teleportation...
09:25For sure...
09:26It'll be a very long time...
09:27Before we see a teleporter...
09:28At home appliances stores...
09:30Next to a TV...
09:31In a microwave...
09:32But we've already got...
09:33Potential developments...
09:34That can...
09:35Could make teleportation...
09:36Real...
09:37In the future...
09:38Researchers in...
09:39Potsdam...
09:40Have created an actual...
09:41Teleporter system...
09:42That can scan an object...
09:43And kinda...
09:44Send it...
09:45To a different location...
09:46But this is not...
09:47Teleportation...
09:48Per se...
09:49This technology...
09:50Is based on a method...
09:51Of destructive scanning...
09:52Combined with 3D printing...
09:55So...
09:56How does it work?
09:57The process begins...
09:58When an object...
09:59Is placed...
10:00In the sender unit...
10:01It's meticulously...
10:03Milled down...
10:04Layer by layer...
10:05Generating...
10:06Detailed scans...
10:07At every step...
10:08These scans...
10:09Are then transmitted...
10:10Through a...
10:10Secure encrypted...
10:11Channel...
10:12To a 3D printer...
10:13At the destination...
10:14The printer...
10:15Faithfully recreates...
10:16The original item...
10:17Layer by layer...
10:18Effectively...
10:19Achieving...
10:20A form...
10:21Of teleportation...
10:22This way...
10:23Scientists...
10:24Have a compact...
10:25Self-contained...
10:25Device...
10:26That can relocate...
10:27Inanimate objects...
10:28Over distances...
10:29You can put an item...
10:30In the sender unit...
10:31Enter the address...
10:32And press the button...
10:33Abracadabra...
10:35The system...
10:36Is called...
10:37Scotty...
10:38You know...
10:39Like the engineer...
10:40In Star Trek...
10:40That can be useful...
10:41For companies...
10:42Selling products...
10:43Through home...
10:443D printers...
10:45Scotty...
10:46Would create...
10:47A sort of...
10:48Digital rights management...
10:49For 3D printed goods...
10:50Ensuring...
10:51That each purchase...
10:52Results...
10:53In a unique copy...
10:54For those hoping to...
10:55Teleport themselves...
10:56Straight to the beach...
10:57It looks like...
10:58We'll have to wait...
10:59At least...
11:00Another decade...
11:00To...
11:01Or...
11:02Way more than that...
11:03But...
11:04If the teleportation...
11:05Of people...
11:05Is based on...
11:06The Scotty...
11:07Technology...
11:08The machine...
11:09Would have to...
11:10Completely copy...
11:11The human body...
11:10Not just the skeleton...
11:12Muscle tissue...
11:13Skin and hair...
11:14But also...
11:15The brain...
11:15Billions...
11:16Of neurons...
11:17Of the most...
11:18Complex computer...
11:19On the planet...
11:20Would have to...
11:20Be copied...
11:21Exactly...
11:22The machine...
11:23Would split you...
11:24Into molecules...
11:25And atoms...
11:25Scan and copy...
11:26Them...
11:27At another point...
11:28But...
11:29If this ever happened...
11:30Could you...
11:30Be sure...
11:31That it was you...
11:32Who teleported...
11:33And not your exact...
11:34Twin...
11:35Would you agree...
11:35To such an experiment...
11:36Not me...
11:37Baby...
11:38So...
11:39Let's consider...
11:40A simpler...
11:41But still...
11:42Awesome...
11:43Technology...
11:44Like a technology...
11:45From earthquakes...
11:46By raising them...
11:47Above ground...
11:49Japan...
11:50Cutting edge...
11:51Of earthquake...
11:52Safety...
11:53With a groundbreaking...
11:54Technology...
11:55That lets homes...
11:55Float...
11:56Just above the ground...
11:57Ready to ride out tremors...
11:58A house...
11:59Gets support...
12:00From a wide airbag...
12:01That holds the building...
12:02Steady...
12:03During an earthquake...
12:04The system...
12:05Uses compressed air...
12:06For a sleek...
12:07High-tech solution...
12:08Each home...
12:09Comes with a special...
12:10Foundation...
12:11A smart sensor...
12:12And an air compressor...
12:14The sensor is like...
12:15The house's...
12:16Watchdog...
12:17Constantly monitoring...
12:18For seismic activity...
12:20When...
12:20It detects shaking...
12:21It sends an alert...
12:22To the air compressor...
12:23Outside...
12:24In seconds...
12:25The house...
12:26Can lift up to...
12:271.2 inches...
12:28Hovering safely...
12:29Above the ground...
12:30While the earth...
12:31Rumbles beneath...
12:32Once the shaking...
12:33Stops...
12:34The air is released...
12:35And the home...
12:36Gently settles...
12:37Back down...
12:38It's like a dance...
12:39Of safety...
12:40And innovation...
12:40Ensuring peace of mind...
12:41During even...
12:42The fiercest quakes...
12:43We all know about...
12:45Airbags...
12:46And cars...
12:47But what about...
12:48A motorcycle...
12:49Or bicycle...
12:50Yes...
12:51People wear a helmet...
12:52And it's safe...
12:53But one Swedish company...
12:54Has invented...
12:55A bicycle airbag...
12:56And the tests...
12:57Of this airbag...
12:58Showed better results...
12:59Than the...
13:00The tests...
13:01Of protective helmets...
13:02When a crash happens...
13:03The airbag...
13:04Pops up...
13:05And immediately turns...
13:06Into a one-time...
13:07Superhero...
13:08Ready to save the day...
13:09But...
13:10Will not be used again...
13:11Thanks to some fancy sensors...
13:13And a snazzy algorithm...
13:15It's got your back...
13:16Literally...
13:17By monitoring your moves...
13:18And springing into action...
13:20In just one-tenth of a second...
13:22To cushion that...
13:23Unexpected tumble...
13:25Testing has shown...
13:26That this nifty safety system...
13:28Scores a fantastic...
13:29Four and a half...
13:30Of stars for protection...
13:31Outshining many other helmets...
13:33That can barely manage four...
13:35Plus...
13:36It's designed to fend off...
13:37Those pesky side impacts...
13:38And twisting forces...
13:40But...
13:41Here's the twist...
13:42While this tech...
13:43Is pretty amazing...
13:44It's still got some room...
13:45For improvement...
13:46Sadly...
13:47The company behind...
13:48This brilliant invention...
13:49And a bump in the road...
13:50And went belly up...
13:52News says...
13:53They haven't aced...
13:54All of their crash tests...
13:55So...
13:56While the airbag...
13:57Is a fantastic idea...
13:58It looks like...
13:59There's still some work...
14:00On...
14:01Now...
14:02Meet a technology...
14:04That will give you...
14:05A reason...
14:06To start making videos...
14:07About birds...
14:09This gadget gives you...
14:10The front row seat...
14:11To the avian action...
14:12Right from your phone...
14:13With a super smart...
14:14A...
14:15AI bird recognition tech...
14:17This feeder...
14:18Automatically captures...
14:19Stunning videos...
14:20Of your feathered friends...
14:21The feeder...
14:22Comes packed...
14:23With a sharp...
14:241080p...
14:25Camera...
14:26Complete with night vision...
14:27So...
14:28Whether it's dawn...
14:29Or dusk...
14:30To miss a beat...
14:31Or a beak...
14:32Rain or shine...
14:33This bird feeder...
14:34Is tough enough...
14:35To handle it all...
14:36It's waterproof...
14:37And dustproof...
14:38Plus...
14:39With two solar panels...
14:40On the roof...
14:41It soaks up sunshine...
14:42All day long...
14:43So you won't have to...
14:44Mess with battery...
14:45Meanwhile...
14:47Have you ever heard...
14:48Of Google...
14:49Jocker...
14:50Technology...
14:51The company has...
14:52Recently shut down...
14:53This project...
14:54But it was still...
14:55Pretty impressive...
14:56Innovation...
14:57Jocker...
14:58Inserted touch...
14:59Sensors...
15:00And haptic...
15:00Feedback...
15:01Right into your clothes...
15:02Yup...
15:03That meant...
15:04You could rock...
15:05Smart jackets...
15:05Backpacks...
15:06That let you control...
15:07Your phone...
15:08Without even touching it...
15:09Wait...
15:10Are we becoming...
15:11That lazy?
15:12Well...
15:13Imagine this...
15:14A quick double...
15:15App plays or pauses...
15:16Your music...
15:17A gentle brush...
15:18On the smart fabric...
15:19Changes...
15:20The track...
15:21And if you cover...
15:22A sensor for a second...
15:23Boom...
15:24You'll mute those...
15:25Pesky notifications...
15:26How cool is that?
15:28It's like having...
15:29A personal assistant...
15:30In your wardrobe...
15:31Hey...
15:32Get out of my pants...
15:33Meanwhile...
15:34Picture a...
15:35Train gliding...
15:36On a cushion of air...
15:37Or a sleek capsule...
15:38Zipping along...
15:39At 700...
15:40360 miles per hour...
15:41Inside a vacuum tube...
15:43It's not sci-fi...
15:44It's something...
15:45Called hyperloop...
15:46Inside...
15:47It feels like...
15:48You're in a spaceship...
15:49You can kick...
15:50Get back...
15:51In a comfy chair...
15:52Strap on your seatbelt...
15:53And get ready...
15:54For an incredible ride...
15:55As you zoom through...
15:57At almost the speed of sound...
15:58You won't even feel a thing...
16:00If you were watching from the side...
16:02This train would whiz past you...
16:04Faster than you can blink...
16:05It's all about that sleek design...
16:07You can think of it like...
16:09Air hockey...
16:10Where the puck...
16:11Glides effortlessly over a field...
16:13Thanks to a thin layer of air...
16:15The puck floats above the surface...
16:17Moving freely without fiction...
16:19That's how...
16:20The hyperloop roles too...
16:22Instead of air...
16:23Coming from the tube...
16:24It's coming from the...
16:25Capsule itself...
16:26Creating a tiny gap...
16:27Between the capsule...
16:28And the tunnel...
16:29I don't like...
16:30Electric motor...
16:31Then sends the train...
16:32Fly...
16:33Now...
16:34You might wonder about...
16:35Air resistance...
16:35At super high speeds...
16:37Dense air can really slow...
16:38Big objects down...
16:40To avoid this...
16:41The hyperloop...
16:42Travels inside a tube...
16:43Where the air density is low...
16:45To avoid...
16:46Special pumps will suck out...
16:47Some of the air along the route...
16:48But it won't be a perfect vacuum...
16:50Getting that just right...
16:52Takes a ton of energy...
16:53And here's a neat trick...
16:55A fan on the front of the capsule...
16:57Will push any incoming air...
16:59Underneath it...
17:00It's kind of like...
17:01How pneumatic mail works...
17:03Where parcels...
17:04Zoom through pipes...
17:05Thanks to air pressure...
17:07Solar panels on the tube's roof...
17:09Will help power this...
17:10The whole thing...
17:11Elon Musk dreamed this up...
17:12A while back...
17:13But there are some challenges...
17:15To tackle...
17:16Keeping that air cushion...
17:17Just right...
17:18Over long distances...
17:20Is key...
17:21Any cracks...
17:22Bumps...
17:23Or even a little earthquake...
17:24Could throw a rain...
17:25In the works...
17:26The technology...
17:27Is not quite ready...
17:28For prime time...
17:29But...
17:30If engineers nail it...
17:31We could travel...
17:32From Los Angeles...
17:33To New York...
17:34Arriving...
17:35Two hours...
17:36Faster...
17:37Than a commercial jet...
17:38Now...
17:39Air...
17:40Other taxis...
17:41And self-driving cars...
17:42Are great...
17:43For flying high...
17:44Or cruising on smooth roads...
17:45But what happens...
17:46When you need to navigate...
17:47Through rough terrain...
17:48Like mountains...
17:49Mud...
17:50Or swamps...
17:51Enter...
17:52Hyundai's incredible innovation...
17:54A futuristic...
17:55Car...
17:56That's ready...
17:57For any challenge...
17:58Instead of wheels...
17:59This amazing vehicle...
18:00Has...
18:00Can tackle...
18:02Tough landscapes...
18:03With ease...
18:04And comfort...
18:05Each leg...
18:06Is designed...
18:07With joints...
18:08That bend...
18:09Allowing it...
18:10To conquer...
18:10Everything...
18:11From steep hills...
18:12To the summit...
18:13Of a volcano...
18:14Hopefully...
18:15Not when it's...
18:15Interrupting...
18:19That's it for today...
18:20So...
18:21Hey...
18:22If you pacified your curiosity...
18:23Then give the video a like...
18:24And share it with your friends...
18:25Or...
18:26If you want more...
18:27Just click on these videos...
18:28And stay on the Bright Side...
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