- 10 hours ago
فسيلة - transplant
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قوائم تشغيل فسيلة
https://www.dailymotion.com/fasela/playlists
هي مكتبة رقمية تحتوي علي آلاف الفيديوهات العربية في جميع المجالات
It is a digital library containing thousands of Arabic videos in all fields.
قوائم تشغيل فسيلة
https://www.dailymotion.com/fasela/playlists
Category
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LearningTranscript
00:00Subhan Baraka Arousa
00:04What rosary?
00:06You've been asleep for six minutes since the wedding.
00:08This is a deliberate tick-tick, be careful.
00:10Tick-tick?
00:12I love my life
00:14It needs something called biomimicry
00:16I'm like a pony, for example.
00:18You'll find me inside a long greenhouse
00:20Don't ask me anything
00:22I don't understand, what does that mean? You're going to live your life now?
00:24Are they all like teddy bears?
00:25Now I'll start picking
00:28For example, I'll be like a turtle.
00:30When I have tasks to accomplish
00:32The gorilla costume in the balance of life companies
00:34I buried my head in the sand like an ostrich
00:36Because it involves a legal confrontation
00:38I have to do it
00:39Okay, sir
00:40Now, give me 2000 pounds so I can buy my life.
00:42Sanaa, you don't listen to anything I say.
00:44The animal kingdom is a fascinating world.
00:46There is no need for any transfer
00:48I didn't hear you, Sanaa's soul, all
00:50Enjoy your meal, let's break our fast now.
00:52In the name of God
00:54Okay, with your biomimicry material.
00:56How is God doing?
01:00What is this?
01:02And there's a need for food.
01:03Oh yeah, I forgot to tell you
01:04That is, about the downfall of the black widow
01:06It kills its companies immediately after mating.
01:09Blessed be the rosary, O groom!
01:16Mohammed
01:18Oh Muhammad, I'm sorry for you
01:20Mohammed
01:22Let's see what this sausage is saying
01:32How are the viewers? Welcome to a new episode!
01:34From the Al-Daheeh program
01:36How beautiful the scenery is! Let's take you to Japan.
01:38Specifically, the year 1990
01:40There's a problem with the Shinkansen 500 train.
01:42What happened to Abu Hamad? Was it a big deal or what?
01:44On the contrary, this dear one is very fast, they call it a train.
01:46Bullet, Paul Train, speed
01:48Approximately 170 miles per hour
01:50The problem, my dear, is that the Japanese wanted speed
01:52This train exceeds
01:54105 miles per hour
01:56Their problem wasn't with the engine or the fuel.
01:58Their problem is with the air, specifically the train, at its normal speed.
02:00When he was leaving the benefit, he made a bang
02:02Why is there a popping sound?
02:04From a distance of 400 meters
02:06Air pressure continues to build up
02:08In the form of waves in front of the diameter's leading edge
02:10As soon as the train enters
02:12The benefit of these waves begins
02:14Slow down the train's speed
02:16When the train, my dear, enters the market, it removes the benefit.
02:18These waves and their source are beyond benefit
02:20Of course, the popping sound works, my dear.
02:22The population around these areas is becoming increasingly limited.
02:24Every longing has a burst of emotion, my dear.
02:26There are laws that regulate this matter.
02:28This solves the problem, reducing
02:30Percentage of noise coming from the drops
02:32My son, lower your voice to a lower level than
02:3475 decibels is something like a level
02:36The sound of water in the bathrooms
02:38What is required now, my dear, from our friend Mo'nesin?
02:40If we make Qatar faster and less noisy
02:42The least important task will be assigned to her.
02:44Technical Development Manager
02:46His name is Eiji Nakatsu, and this guy will make fun of him.
02:48All his experience is limited to engineering expertise.
02:50And the technology, no, that's also his expertise.
02:52birdwatcher
02:54Katsuo, my dear, was very interested in the kingfisher.
02:56King Fasha
02:58This is a bird that hunts fish.
03:00He uses his beak to drill through the water at a speed of 25 miles per hour.
03:02Because of its upper or lower beak
03:04Their composition is different
03:06Their shape is smooth with rounded edges.
03:08This will cause the water to be forced against the bird instead of rushing out due to pressure.
03:12It will start to flow around the beak
03:14And Hatana Katsu told you
03:16The train is coming with me, it's going to enter the tunnel.
03:18That's exactly the moment the beak enters the water
03:22So, my dear, the idea of the developing generation comes to him.
03:24We make the front of the train look like a bird's beak.
03:26And that's how the compressed air will move around the train.
03:30It's not in front of the train, so it won't make a popping sound.
03:32Here, my dear engineer, the man was surprised that the engineer had brought them a beak design.
03:36I didn't make the front 15 meters longer
03:38It doesn't happen, my dear, that when they come they say "okay"
03:40We will do this.
03:42We find that air resistance decreases by 30%
03:45The Qatari whip actually reduces the noise to less than 75 decibels.
03:48The train, my dear, used to get its power from electrical wires.
03:51Related to supports called Panto Graves
03:53As soon as the train starts moving, it begins to create annoying whirlpools.
03:56And here's where we have the problem: the train is quiet outside.
03:59But inside it became very annoying
04:01When I get to Qadisah, he'll redesign this pantograph.
04:04And it makes him resemble an owl's wing.
04:06My day is long
04:07I have a feeling Professor David Ottenbram is about to come in now.
04:10What brought the owl that's engineering into this?
04:11Dear viewer, I'd like to tell you that the owl's nickname is the Lady of Silent Flight
04:16Watch this video, my dear
04:17This is a flying mouse and we have the sound on normally.
04:19He heard any sound
04:20Facebook spy voices
04:21Double or Seven flies to her horse without making a sound
04:23for him?
04:24This is because of the design of its wings.
04:25And indeed, my dear, when he comes to do an engineering design
04:28Similar to owl wings
04:30The noise is decreasing
04:31That's not all, my dear.
04:32We'll find other things to reduce its problems by using other tools.
04:36For example, we can also find penguins.
04:38The design was inspired by a penguin.
04:40Its structure helps it to float more smoothly in the water.
04:44Here we are, my dear, in front of a man who used tar, shelf, shelf
04:47Owl wings and penguin body
04:49From this position, I love or appeal to Ahmed Nti
04:51He looked at the monorail.
04:52We have many birds in Egypt
04:54They might be able to help us design our frames, by the way.
04:56On March 22, 1997
04:58Qatar enters the Schengen service
05:00And he becomes one of the palaces on the drops of coke
05:02And dedicate it in sound
05:04Perhaps, my dear, we can consider Katsu to be a genius.
05:06But the most accurate name for the work he does
05:08Hetzke, a Benius embryologist
05:10It is biomimetic biomimicry
05:12This is my dream: to utilize nature's patterns to solve its everyday problems.
05:16Jenin says that the designers
05:18They will study engineering and design
05:20But they don't study biology, and that doesn't make them important.
05:22How the world around them works
05:24And how can it possibly operate with ingenious systems?
05:26And much easier systems
05:28According to what Jenin said, nature provides us with things
05:30Send me designs that we can emulate
05:32We can also talk about things
05:34Animals do it, and we use it to our advantage.
05:36Sometimes, dear animal, when we look at it
05:38It reminds us that we are limited
05:39Imagine me with someone drowning in the hall
05:41And the fish around him breathe with a low breath.
05:43And she lived her life very normally.
05:45Or one on Mount Bebs, looking around him
05:47He's on the birds and doesn't feel like they're experiencing any problem.
05:49That's why we created things in our imagination, like
05:52Batman or Spiderman
05:53Superheroes who rescue and mimic the characteristics of animals
05:57But what would happen, my dear, if I told you?
05:59Animals can offer us much more than what's found in comics.
06:03In fields such as medicine, engineering, and rescue
06:06In his speech
06:07In front of the Royal University in London in 1702
06:09He will describe the Dutchman Leeuwenhoek
06:11Its size was between half a millimeter and one millimeter.
06:13This is an organism he discovered with his microscope, the beginning.
06:16Discover, my dear, a creature we know today as
06:18Or dissolve in water
06:20That's because it's similar to a bear, my dear.
06:21He moves through the water with both feet firmly planted.
06:23Note: His discovery will amaze scientists, my dear.
06:25Why? Because the places believe that nothing can destroy it.
06:28It can withstand extreme temperatures up to 150 degrees Celsius.
06:33For a 15-minute delivery, it won't work in Salt.
06:36Not only that, you'll put them in a low temperature, you'll put them in a refrigerator
06:39It can withstand temperatures down to -271 degrees Celsius.
06:43Yona Nsoud
06:44What is this, Abu Ahmed? This is a cold creature.
06:46It can withstand this low temperature for up to 8 hours.
06:49That's why, my dear, we'll find him in the Himalayas.
06:515500 meters above sea level
06:53We will also find it in the southern Al-Qarara Al-Mutabaiya.
06:56He's even capable of surviving life in space, my dear.
06:59This creature, my dear, lived on artificial means for 12 days.
07:03What will baffle scientists is how a creature like this is able to live without a single drop of water.
07:07near-complete dehydration
07:08You will know about the containment drying
07:10That was it, my dear
07:12My dear, when it dries out, its extremities begin to shrink and its metabolic processes slow down to less than 0.01% of normal.
07:20Here, his body releases all the water inside it and takes the shape of a dry tree called a tan.
07:25The organism remains inside until it is revived.
07:29How long does Helosh stay in this state, Ya Bahmad?
07:31He can stay for years, my dear
07:33What years?
07:34Not only that
07:35Some estimates, my dear, reach seventy years
07:37Professor John H. Chorrup at the University of California will discover the secret of the process, which is sugar.
07:41Specifically, what is called Trehalose
07:43This helps in the extraction of proteins and cells.
07:45When Tarté Grid dries, it uses trihalose, which is the place where water molecules in its cells are stored.
07:50This preserves the cell structure at the molecular level.
07:53Until, God willing, there's more water.
07:56Thank God, I'm Hassan. You got carried away with the appeal of the content, rather than the topic of the episode.
08:00What will I gain from Al-Ashi's blood?
08:02I'm not Tarty Grid
08:03I can't use this Trihaloz.
08:05Because Hader kept the water
08:06He stood for seventy years
08:07None of us would like to dry up our blood inside our bodies.
08:09I'm not eating
08:10You're telling me, my dear
08:11I didn't know, Bahmad Hassani, that I could say that.
08:13I mean, I say
08:14Dear viewers, let's imagine if we actually discussed this process in the blood outside the body.
08:17In the blood ring, if you remember
08:19We talked about how we divide blood after the grumbling
08:21For example, platelets help in wound healing.
08:25And storing it becomes a hassle.
08:27Because it doesn't get stimulated in a refrigerator
08:28It must be stimulated at room temperature.
08:31Rune Temperacher
08:32Its validity period is from three to five days.
08:34The scientists told you
08:35Well, why don't we try taking this trihaloz?
08:37We target it with sheets so that we freeze them.
08:40We preserve it for up to two years.
08:43And with that, we were able to transport blood over long distances.
08:46And it is impossible for healthy platelets to reach those areas.
08:49And in our sense, dear friend, we are emerging from Corona and epidemics
08:52Let me tell you that half of the vaccines we have are very easy to convert into inactive forms.
08:57Because, unlike the platelets we talked about, they need cooling.
09:01Unfortunately, it's not easy to always have a cooling system.
09:04Use it with us if we use Trihalose in the same way
09:07The vaccines are then activated by adding a little water.
09:10This allows us to extend its lifespan from days to years.
09:14That's Harsu, Ya Bahmad, all this comes from that.
09:17Let me take you now, my dear, to a creature that is a little bigger and tenth
09:20In 2002, the US Navy faced a security problem.
09:24What happened, Hamad?
09:25My dear, there was no problem with the crippled collateral damage.
09:27The problem, my dear, is that the alliance has disrupted the movement of ships and submarines.
09:31Why? Because they started piling up on the structures.
09:34Professor Anthony Brennan, a professor at the University of Florida, discovered that it begins with a simple bacterium.
09:40These bacteria produce substances that attract bacteria until our surfaces begin to be covered with bacteria.
09:46This, my dear, is called "biological scum"—may God protect us from it.
09:49Biophaolin
09:50Brennan will try to think of solutions from nature, specifically sharks.
09:54This is practically the only sea creature that swims with shiny skin.
09:57It has no algae or plankton.
09:59Shark skin, my dear, is made up of millions of scales.
10:02They're all, as you might say, shaped like the letter B; they're called human teeth.
10:06These are flexible layers with openings inside.
10:08This swims through the water, allowing it to enter easily, thus enabling the shark to swim more generously.
10:12At the beginning of the millennium, Speedo introduced swimsuits inspired by shark skin.
10:17This, my dear, is like a breakthrough that will make swimmers swim much faster.
10:21To the point that those who actually did it won the 2008 Beijing Olympics
10:25With a percentage of 98% of the medals
10:28The issue, my dear, was that this was a disadvantage to such an extent that these swimsuits will be barred from competition.
10:33Didn't the solution to the problem of the shark's entanglement become clear? No, each one is lined with subtle deviations.
10:39Diffraction causes divergences, just like you would say to water.
10:42Each of them is lined with millions of microscopic diffractions.
10:46These things, my dear, prevent bacteria from settling on the shark's skin.
10:50In this case, the bacteria need tremendous energy to be able to establish themselves.
10:53So it shifts to any other surface
10:55Here, Brain will create an artificial surface that mimics shark skin and scales.
10:59He will call his invention a product whose development will not only solve submarine problems.
11:03But it will also be used in hospitals.
11:06What do we want to do to combat bacteria, sir?
11:08We want surfaces that don't harbor bacteria.
11:11What can you imagine, my dear, if a ladder were laid on every surface in public places?
11:15This, my dear, can help us protect ourselves from many diseases caused by bacteria.
11:19Here, my dear, is the predatory jaw that scares and frightens us, sometimes preventing us from going into the sea.
11:24It could save millions of lives
11:27If we sail to the frozen regions, we'll find the icefish issue.
11:32This, my dear, is a good fish, may God make it good; it can't freeze in the middle of freezing weather.
11:37Not because they are strong, for example, ice fleas
11:40These are small arthropods, less than three millimeters long.
11:43And then you'll tell me the same thing, "Oh strong one!"
11:45The problem, my dear, is when the world gets so cold, the temperature drops to the point of freezing.
11:50The problem isn't the cold itself, but what's happening; the water inside the body was the living thing.
11:55My dear, it begins inside the cells with ice crystals.
11:58Over time, this can destroy the cell structure.
12:00In the 1960s, scientists made a very important discovery, something called the FB.
12:05AD Antifreeze Proteins
12:08The fish and ice fleas, Face Aziz, is the name of a group in a Ramadan hockey role.
12:12Fish and fleas are countries that have these proteins.
12:15These proteins, my dear, perform a process called adsorption stabilization.
12:18Simply put, antifreeze proteins bind to frozen ice crystals.
12:25Its surface attempts to transition from flat to curved.
12:27So here, my dear, is what makes it difficult for the water to bond with this crystal.
12:31So the water starts to remain in its original state, and the cell structure doesn't get damaged.
12:34This means that FB proteins lower the freezing point of water in the body.
12:38These proteins, my dear, will be used in a very, very, very, very large number of industries.
12:42What is aviation?
12:43Because what could prevent the aircraft's surface from freezing?
12:46Let him, my dear pilot, maybe before you take off you can get a protein shake.
12:48A B
12:49Actually, my dear, this is an important field, but perhaps the most important field is a dangerous one like organ transplantation.
12:54Scientists were able to isolate glycine
12:56This is an antifreeze protein found in ice floe.
12:59They developed synthetic proteins that mimic it.
13:02Dear Turkish friend, you want the organs that you will be transferring to be kept cool.
13:06But not to the point where it freezes and spoils.
13:09FB proteins can protect organs from freezing.
13:13So that we gain the advantage of storing it at a low temperature without the organs freezing.
13:17This prolongs the virtual lifespan of these organs.
13:20Thank you, bulgur
13:21The most important feature is that these proteins break down naturally at high temperatures.
13:25This means that as soon as the body reaches normal temperature, the protons are depleted.
13:29She says, "I've already done it for Alia, thank you, goodbye."
13:32Meaning it exits the patient's system quickly
13:34This reduces side effects.
13:37My dear friend, we could say that it was a game changer.
13:39In a medical field based on the race against time
13:41So bless, my dear, the sea's relative, a little while and we'll fly
13:44What do you think, my dear, of the parasitic wasp?
13:46This jalebi is a pentless, my dear, it is a parasitic disease
13:49This type is when the young lady prepares to lay eggs.
13:52It starts, my dear, with people looking around like that.
13:54See what suitable targets we can place the eggs on.
13:58The larvae of the kit are these
13:59My dear, she has a long trunk called
14:02And you, my dear, are holding a larva of the group.
14:05It lays up to about 80 eggs at a time.
14:08Why, my dear, are these caterpillars finally hatching?
14:10The host body, my love, is being attacked from the inside out.
14:13From this zombie scene, Rimaa sees this and stays silent. No way!
14:17One of the Dutch universities was impressed by the idea of Khartoum.
14:20Because it offers an ingenious solution for theoretical surgeries
14:24For example, when we need to take a tissue sample
14:26Or we remove tumor tissue
14:28The problem arises when we need to extract tissue from difficult-to-reach areas.
14:32It could be blocked due to a blood clot.
14:34Or it might accidentally hit something in the tissues along the way.
14:36Or accidentally, it pulls out healthy tissue.
14:38However, its size can be significantly increased during surgeries performed in sensitive areas such as the brain.
14:43The people of Al-Rumma are amazed by this trunk of this stolen creature.
14:47This is a very flexible, hollow needle containing three stingers.
14:52Each poison slides inside the needle independently.
14:55The eggshell is formed by friction.
14:57And when Samam slips, he comes after the second and third.
15:00A malicious movement that helps in egg spillage
15:03The essence of this host body, may God have mercy on him in the future
15:06Huda, my dear, the scientists are telling you that we're learning this stuff, and we'll try to talk about it and make a bomb out of it.
15:12Imagine six semi-cylindrical blades attached to an external tube the width of a matchstick
15:17Imagine this bomb targeting cancer cells.
15:20These codes will move one after the other towards the cells.
15:23And as soon as the blade moves forward and cuts the tissue
15:26The fifth group of thieves waiting inside will slide out.
15:30The cancer cells are removed.
15:32A technology that scientists hope to develop in the future
15:35This will make it better at targeting tumor tissue.
15:38These, my dear, are brilliant examples.
15:39How does a process occur inside an animal's body, such as with FPD proteins?
15:43Or the tri-halos in the tart grit
15:45or shark skin
15:46How will all of this be transformed into a system that saves millions of lives?
15:49Can we expect BioMicry to provide even greater rescues than this?
15:52It might save the planet's system, for example.
15:54Or, my dear, we'll talk about saving our planet.
15:56So we need to look into nature
15:58We will find a solution to both problems.
15:59Energy and pollution
16:01I will destroy your rose butterfly, my dear
16:03What makes it most distinctive is the velvety black color of the upper sock.
16:07As you can see
16:08This is a color that has evolved over millions of years for a brilliant function.
16:11What is his goal? What is his job?
16:12It simply gathers the sun's pressure
16:14Butterflies, my dear, are cold-blooded.
16:16It depends on the temperature of the outside environment.
16:19So that she can keep herself warm
16:20In the garb of a crocodile
16:21If you find butterflies, workers opening and closing their wings
16:24This is because it is trying to collect enough solar energy.
16:27So that it will be able to fly
16:28Redo Anon, a friend of the optics engineer at Bataltic University
16:30Headers Rose Butterfly
16:31And he will find the surface of its wings
16:33It consists of a haystack in each one of them
16:36Composition of melanin and catechin
16:38Full of microscopic projections
16:40Made in irregular patterns
16:42Of course you're not important at all
16:43But my dear, what I want to say
16:44When the sun hits the wings
16:46In a different way, my dear
16:47It has adored nipples
16:49This is from this bale.
16:50These nipples, my dear
16:51The light is descending, breaking apart
16:53It's as if you dropped this duke on a square mirror
16:56Then he starts taking here, taking here, taking here
16:58The Duke was scattered
16:59What she's doing is distracting the Duke
17:01I feel like it oxidizes the scales
17:03At that time, the duke absorbs the melanin.
17:05This means we are dealing with an integrated network.
17:07On the wing of a simple butterfly
17:09And it doesn't just absorb the quenching
17:11But by making it bigger and stronger
17:13To restore this duke
17:15As much as possible
17:17Scientists will see this and tell you
17:19Well, we'll describe this in the context of solar energy.
17:21Well, Abu Hamad, we have solar panels.
17:23The scientists are late.
17:25Dear, these panels are made up of cells
17:27thick crystal
17:29She works well and is heading
17:31Direct sunlight, but when the sun
17:33By moving away, I solved it by reducing its size.
17:35Okay, Abu Hamad, ask why the sun isn't moving.
17:37So, my dear, you're talking
17:39In mobile panels, this is their cost
17:41It's bigger and needs engines.
17:43Electrified, energy, and maintenance
17:45Dear Farih, those scientists I told you about
17:47He'll tell you, "Well, we can use the installation."
17:49The net of the rose butterfly
17:51We use solar cells with the same structure.
17:53And indeed, my dear, they found her sitting
17:55Light up to 90%
17:57From the proliferation of conventional cells
17:59And when they put it in, it was curdled from a source that illuminated at an angle.
18:01It means they weren't directly surprised by it.
18:03The efficiency reached two hundred percent
18:05This, my dear, is a vote if it develops
18:07It will allow solar power
18:09Much cheaper and more efficient, especially in the country.
18:11The cold one where the sun rises
18:13And just like the sun does to us, my dear
18:15And it gives us clean energy; it's a source of clean energy.
18:17It is different, and it is the wind.
18:19One day a professor at the university goes
18:21Westchester to buy a gift
18:23So that he will be surprised in the shop by the statue
18:25To surround one of the areas and on the side
18:27Its fin has protrusions with spurts
18:29Hey, my dear, I'm going to the shop owner's.
18:31And tell him, "Professor, almost the person
18:33Whoever worked on this wall made a mistake
18:35If you look closely, you'll notice that there are some bumps on one side
18:37And there's no way that's wrong with that.
18:39Here the shop owner will tell him
18:41The sculptor pays great attention to detail.
18:43It's almost as if you're the one with the problem, Doctor.
18:45At that time, my dear doctor, I was perplexed
18:47The eye of the fin is supposed to be a third, streamlined organ.
18:49So you can move easily in the water
18:51If the boobs are there
18:53At the front of the fin, its function remains
18:55Especially since the whale has some of it
19:05With this agility, what's with the five percent?
19:07In the name of God, what God wills, when he comes, my dear
19:09These five things work, and that's what he does.
19:11Turning so quickly, this turn might
19:13Let him swallow the fritters
19:15Because of its ability to coil
19:17Aziz also has a swimming technique called
19:19fishing bubble net
19:21My dear, he doesn't know that's her name.
19:23You'll find, my dear, that it swims in a spiral and rises while
19:25Benfes comes out of his opening
19:27Customer bubbles exhaled
19:29It traps fish to the point of imprisoning whales.
19:31Its intruder seizes it and swallows it all up
19:33In short, my dear, imagine being
19:35It weighs as much as a bus, but it moves.
19:37With the graceful movements of a ballet dancer, specifications
19:39You can't get rid of a bad, snot-so-good person
19:41Or it has bumps on it
19:43Doctor, indeed, my dear, he will study the whale.
19:45One of the years will discover that these protrusions
19:47It's not that it's going to be like that.
19:49The secret to his slim figure, my dear, is that you are in Arabic.
19:51If you took your hand out, it wasn't a net, and you raised it up
19:53You'll find the wind lifting it higher.
19:55This is called the lifting factor
19:57The same principle that allows airplanes to fly
19:59But if you lean your hand, I will cut it.
20:01You'll find the wind didn't lift it.
20:03This is because the lifting force reached a certain level.
20:05And this, my dear, is what we call the breakdown factor in engineering.
20:07This laboratory is with you, the world's leading laboratory.
20:09Hold on tight, my dear, this whale moves in the same way.
20:11The lifting factor directs the fin
20:13The fin of a whale is angled at a specific point; if the whale's fin were smooth
20:15Without these protrusions, he would have lost lifting power quickly.
20:19But the tubercles that are in its fin
20:21It makes the water move in a way that doesn't let it
20:23It quickly reaches the breakdown coefficient
20:25Indeed, my dear, why did the scientists consider
20:27Smooth artificial fin
20:29It has no bumps
20:31There are no buzzes
20:33Opposite the one with natural protrusions
20:35They found that the protrusions create a greater lifting force.
20:37The owner's power was less and increased
20:39The angle of attack is 40% before we arrive.
20:41For the breakdown factor at that time, my dear
20:43Dr. Frank will design the building
20:45The same as wind turbine blades
20:47According to what Majaleh M.I. Teen said
20:49The initial mixture of protrusions within it
20:51It increased the lifting power.
20:53And it worked with the same amount of energy
20:55At a speed of 10 miles per hour
20:57Compared to ordinary turbines
20:59Here, my dear, instead of the type of years
21:01In mathematical equations, we discover the rest.
21:03We hope that's how it is; we looked at nature.
21:05We learned and worked
21:07Inspired energy sources
21:09Nature has provided us with clean and cheap energy.
21:11Our efficiency is high, pour a lot
21:13It was impossible for us to reach this level of efficiency.
21:15Our own biomimicry not only provides
21:17We have clean energy sources
21:19The sun and the wind combine to form a powerful force.
21:21I'll solve the pollution problems for you, my dear.
21:23The manta bouhamad might be an apple because
21:25I don't drink Portowani, but Ya Zarif
21:33Like horns, that's why it's famous by that name
21:35The sea devil, but it's scattered, my dear.
21:37She plays the role of Malak Moqs in our story
21:39The product is based on filtration.
21:41The water enters her mouth, the Arab
21:43It takes all the microscopic plankton
21:45The water outlet comes from the openings of the khashin.
21:47Many fish do that.
21:49Like sardines, for example, but
21:51Whitney Laboratory Marine Sciences
21:53They will focus on the product for a simple reason
21:55Because it's a fish that doesn't need to clean its mouth.
21:57The fish's survival is like that of a stranger.
21:59The water passes through it, leaving behind the suspended particles.
22:01So we followed him, for he was in a moment
22:03It's very possible it will get blocked, like the opening in the drain.
22:05That's how it is, and we need someone to clean it.
22:07But that never happens to the mint.
22:09Because its filtering system is unique
22:11When she swims, the front of her mouth is lined.
22:13with gill plates
22:15Why are you making it crooked and small?
22:17You can make small whirlpools
22:19The first thing that the plankton reach
22:21Because work shifts start after that
22:23He can't get the dam
22:25The scientists were amazed by this simple system.
22:27Because its simulation can create a brilliant system for us.
22:29He catches us in the remaining people
22:31microplastics
22:33My dear, in Sanwan there are 13 million tons of plastic entering the ocean.
22:35And they destroy marine life.
22:37And they get involved in our food.
22:39Plastic particles can be divided into three types
22:41Negatively floating particles
22:43I want to dive to the bottom of the tanks
22:45On the other hand, positively charged particles.
22:47It's based on water and removed from the line.
22:49The last one, my dear, and the most dangerous
22:51It's the one that remains neutrally vague.
22:53T will be in the middle, at the same level as the zooplankton.
22:55This is difficult to deal with.
22:57But this, my dear, is using
22:59What we saw in nature, if we imagined
23:01A candidate who might not be able to work
23:03Treatment plants are installed in it
23:05It is estimated to efficiently capture D particles.
23:07And then the problem will be solved.
23:09Biomimicry has the potential to open the door to life-saving medical fields.
23:13Scientific fields that will save our planet
23:15With new energy sources, and also to prevent the pollution caused by our industrial activities.
23:19But my dear, if we look up
23:21We will find that biomimicry is capable of providing solutions
23:23It could go beyond the safety of our planet.
23:25Let's take you, my dear, and go to the Mariana trench.
23:27In the Pacific Ocean, at a point far from the surface
23:2911 km
23:31Pumping more than a thousand times
23:33In terms of atmospheric pressure, we have a point here known as the Deep Challenge.
23:36Why is it called that? Because of her circumstances.
23:38NASA's weightlessness experiments in outer space
23:41However, if you were to descend by a miracle, you would find the creature.
23:43That young lobster is walking normally
23:45Walking through the darkness, yet seeing his way
23:47A simple invertebrate, but it is very well known
23:49It has a long lifespan and is believed to have many varieties.
23:51This immortal creature lives for 200 years, suffering in the summer and spring.
23:55To find food, and this is due to the sediment that obstructs visibility in the water.
23:59This leads him to develop a unique way of seeing the world around him.
24:02The dope, my dear, when it enters our eyes, is prone to breakage.
24:05Until it reaches the retina and is converted into nerve signals
24:08These signals travel from the optic nerve via a tensor.
24:11A unique method for creatures living in an environment with sources of poison
24:14But that doesn't work with our creature.
24:15He lives most of his time in darkness
24:17Therefore, it will rely on reflection instead of refraction.
24:20The pupil of the eye that has thousands of squares
24:23These represent the ends of more than ten thousand long tubes.
24:26These pipes have very flat and reflective sides.
24:29It's as if, my dear, he has thousands of mirrors.
24:32Arranged in a way that oxidizes light from a very wide angle
24:35Until we reach the organism's retina
24:37This gives him a 180-degree field of view
24:40And it helps him move around in an environment where visibility is very poor.
24:43Let's leave now, my dear, as if this is just a little bit of crying on the side and then we'll go to space.
24:46What astronomers are looking at, and most importantly, what Bateman discovered.
24:49These are Chinese rumor-mongering activities
24:51Those that are emitted from high-energy bodies such as stars and black holes
24:55And there's this, my dear, because our atmosphere is thick and absorbs this radiation before it reaches the ground.
24:59We need to explore it using a telescope mounted on satellites.
25:03This telescope works well when we have identified the direction from which these Chinese rays are coming.
25:08Okay, so if we want to search a wide area of space for these unexpected activities, what should we do?
25:14The answer, my dear, will appear in the seventies, specifically in 1977.
25:17At the hands of someone named Roger Angelli
25:19This man, my dear, thought of making a telescope that works in the same way that this creature's eye works.
25:25This concept has been evolving for over 30 years in various universities around the world.
25:29The telescope will consist of a thin, curved glass plate covered with tiny tubes, like the tubes in this creature's eye.
25:36These Chinese rays enter these tubes and are reflected onto a single point to create the image.
25:41Because these tubes are arranged on a curve, they will be able to capture Chinese rays from a very wide angle.
25:46The telescope is capable of detecting unexpected activities over a large area.
25:50Imagine that the creature darting in the dark depths could be the reason for discovering a distant star that died millions of years ago.
25:57In 2009, Professor Ingo Reichenberg discovered an exceptional spider in the Erg Chebbi desert in Morocco.
26:04This, my dear, will be known among the rolling spiders
26:06This, my dear, is his way of avoiding predators: by performing acrobatic somersaults.
26:11Reichenberg decided to design a robot called the Bionic Wellbot.
26:15This robot will mimic the flips of this spider
26:20My dear friend, space is where we'll spend our time, using telescopes, but Mars is an enticing planet to explore.
26:24One of these enticing things is its minerals
26:26The problem is that its surface is full of craters, in addition to the fact that its two icy poles have an ice cap.
26:31This makes exploring its surface with ordinary robots a difficult task.
26:34The Reichenberg robot is larger than a spider.
26:36But the spider costume has 8 legs controlled by 15 prongs
26:40The robot moves with six legs, but when it wants to move, it uses the remaining two legs to perform a complete somersault.
26:46This will allow him to move easily across this rough terrain.
26:49These acrobatic flips will distribute his weight over a larger area.
26:53This provides it with greater stability than any ordinary machine.
26:55Biomimicry can allow you to peer into space with a genius telescope and explore distant planets.
27:01But what would happen if we had the ambition to use these planets?
27:05One of the legends of the Anut people of the Arctic is about their pursuit of the owner of predatory animals.
27:10Those who called him Nanuk and respected him for his greatness and for wearing the sacred abaya
27:14He won't remove it until he reaches his new cave.
27:16Of course, my dear, the legend is fictional.
27:18But Nanook is a real creature called a polar bear.
27:21Oh Abu Ahmed, I know
27:22I know the white one who walks on the snow.
27:23No, my dear, it's black, not white.
27:25Hey Abu Ahmed, we're right in front of you in the picture, the man is white
27:27You, Abu Ahmad, just to find out you've become progressive
27:29So you can see the colors
27:30No, my dear
27:31Let me tell you that polar bears are born with their skin on.
27:34But over time it turns dark black
27:36Its fur is almost transparent
27:38This fur coat consists of two layers
27:40A short insulating layer of coarse hair next to the skin
27:43The second layer is a fine, stiff hair about 10 years long.
27:48These two layers are transparent
27:49But they are made from creatine protein.
27:51That's what gives them a white appearance.
27:53Each of these hairs contains a hollow stone filled with air.
27:57This makes the down lightweight.
27:59It also traps warm air.
28:01That's why it's such an ingenious thermal insulator.
28:03They used the anut for centuries for heating.
28:05This fur, my dear, will start to attract the attention of some scientists in China.
28:09Because with it they can develop a new type of aerogel
28:13Which could be used in space
28:15Aerogel is a brilliant material that emerged in 1931.
28:19Because of a bet made by the American scientist Samuel Kesner
28:21It can remove the liquid from the gel without changing its shape.
28:25And indeed, it can increase with temperature and pressure.
28:27The liquid inside the gel is transformed into something resembling a gas.
28:30The result is a gel that maintains its shape on the outside, but inside it's a network of fibrous materials surrounded by excavated ceilings.
28:36Aerogel's genius lies in the fact that it's a very thin material, yet it can withstand something a thousand times its own weight.
28:42It also has the ability to insulate heat excellently.
28:45Why? Because the heat can't move around due to the internal structures.
28:49In 1997, the company used this material to protect the operation of Pathfinder systems.
28:54One of the temperature variations that exist on Mars
28:56It's quite possible to reach forty units during the day and forty units under the row at night.
29:01Let's go back, my dear, to what the researchers I told you about in China said.
29:04We will find them studying a new type of aerogel whose structure mimics the fur of a polar bear.
29:09Specifically, the air gaps present in the fur logos.
29:13This design was much better at insulating against heat and repelling water than regular aerogel.
29:18Some scientists would consider this a revolutionary solution for colonizing Mars.
29:21Because a simple layer 2-3 cm thick
29:24It will be the key to building a gas greenhouse in the atmospheric dispute.
29:28This could potentially protect humans on Mars from extreme temperatures.
29:31ultraviolet radiation
29:32It also allows sufficient light to enter for crop growth.
29:36And so the polar bear fur that Lanut considered the king's cloak would be
29:40It transforms into a cloak that protects us on a strange planet
29:43Maybe, my dear, on this long journey of ours
29:45We will find the essence of biomimicry
29:47We are humble enough
29:49So we can see that many of our problems are what we think are complicated
29:52The solution might be very simple and has existed in nature for millions of years.
29:56This is not because nature is simple, on the contrary
29:58Life on this planet is more than three and eight ten billion years old.
30:03Much longer experience in development, trial and error
30:06From the experience of any great human designer, engineer, or scientist
30:09The ultimate destiny, if our greatest invention is AI, is
30:12Its basis is simulation
30:13But this time it's from you, my dear
30:15An invention that mimics the processes of thinking and producing prior knowledge
30:18And he tries to offer future solutions through it.
30:21Even AI respects nature and tries to describe it.
30:24We find a field like genetic algorithms.
30:26Problem-solving algorithms draw their inspiration from the Balog itself.
30:30Genetics and Variation Sciences
30:31Ultimately, it could be the genius of the human being
30:34It is neither strong fur nor complex skin like a shark
30:36And no eyes like a lobster's
30:37But his problem is that he's looking for ways to circumvent the rules.
30:40He harnesses the advantages of other lives to his advantage.
30:43And He makes every system in the universe serve His survival.
30:46Jayzi, my dear, it might not be clear to you.
30:48What is truly authentic about a person is not simply possessing a certain superpower that makes them a superhero in one of the DC series.
30:55But in the universe, he deserves one title with distinction.
30:58The Ultimate Simulator
30:59The ultimate simulator, you want to see the things that came before.
31:02Check out the upcoming content; see the sources we have on YouTube and subscribe to the channel.
31:05Do you know, my dear, why the female tiger loves the female tiger who is a dean?
31:08Because it's a plan for the future
31:09Is that what you wanted?
31:10And frankly, we expect...