Youtube daily report Jan 24 2017

[MUSIC]

Let's imagine extraterrestrials land on Earth tomorrow, only they're not here to

enslave and destroy humanity, they're just galactic census takers.

Then let's imagine instead of our generals, or world leaders, they want to speak to our

scientists.

You know, the important people.

Their first question, might be "How many life forms reside on this planet?"

And the answer is… um, uh, well… umm.

We don't know.

[MUSIC]

Hey smart people, Joe here, and as a biologist, this is kind of embarrassing to admit.

We don't know how many species there are on Earth.

5 million? 10 million?

Unless you want to count microbes and extinct species too, then maybe a trillion?

It's the answer to one of the most basic questions about life, and those aliens will

probably think we're a bunch of galactic dummies, but it's not like we haven't

been trying to find the answer.

Aristotle.

He was big on putting things in order.

Aristotle's universe was made of spheres, one set inside another, with Earth and us

in the center.

This was basically all wrong, but for almost two thousand years, this is how most western

"science" was approached.

If you just define and organize all the things, you will understand *the secrets of the universe*.

Enter Linnaeus.

He agreed with that Aristotle approach: if he found everything on Earth and gave it a

name, he'd unlock *the secrets of the universe* Linnaeus was a Swede, and naming things turns

out to be an old Swedish pastime.

His filing system for organizing all those names gave birth to the one taxonomists still

use today, but Carl, like most scientists back then, was wrong in a big way, and it

took these two guys to show the world why.

In our last video, where we talked about discovering that weird hermit crab caterpillar, we learned

that even defining what a species is might be impossible.

And this is a big reason why.

Nature has a pesky habit of changing.

Like counting sand on a beach on a windy day.

It's not only annoying, it's impossible.

We identify maybe 18,000 new species every year, and we've counted about one and a

half million living species so far.

That's a lot, but it's still a fraction of what's out there.

One recent estimate says there's 8.7 million non-bacterial species on Earth.

At our current rate it'd take 400 years to ID them all.

Catching them all, just isn't realistic.

Even if we did somehow find all the species that live on land, there's two and a half

times as much area covered by water, and stuff lives there too.

We can only make estimates, and over the years those have ranged from 2 to 100 million.

Why are our guesses all over the place?

For one thing scientists have only been able to globally share data through the magic of

the internet for like 25 years.

To make things worse, we have a bias towards feathers and fur.

Of the 10,000 or so bird species we know of, we'd found almost half by 1850, because

all the hippest Victorians were into birding.

Compare that with insects and arachnids, where half of their known species were found in

just the past few decades.

Luckily, the more species we find, the better our guesses get.

Estimates seem to be converging on one number: about 5 million living species, plus or minus

3 million because who needs precision!

That doesn't count microbes, of course, because that number I mentioned earlier, 1

trillion?

That's the real estimate when you count the little guys.

I'm beginning to think maybe we don't run this planet after all.

It may sound impossible to identify, name, and describe all 5 million of Earth's species

or whatever the real number is, but consider the Library of Congress holds nearly eight

times as many books, each of them written by a person.

If more of us take the time, this is a story we can write.

Because you can't read the story of life, if you don't have all the pages.

You can't understand a system if you don't know all its parts.

And you can't conserve what you don't know exists.

Plus I really don't want to make a fool out of myself in front of the aliens.

Stay curious!

Thanks for watching everybody!

I hope you'll consider subscribing, and if you do, click that little "bell" icon

down there so you get notified every time we upload a new video.

And if you haven't already, you should watch last week's video about how we found a weird

new caterpillar in the Amazon.

This is kind of a part two to that video, unless you're watching this one first, in

which case I guess this is part 1 and that's part 2.

Kinda works in either direction.

Just go watch it.

It's awesome.

You're gonna love it.

For more infomation >> How Many Species Are There? - Duration: 4:43.

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For more infomation >> fifa 17 coins fifa 17 hack free coins pack openings fifa 17 coins hack - Duration: 3:50.

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Irish Monks, Pictish People, Faeroes and Orkney | Bedtime Viking Stories👑 - Duration: 1:54.

For more infomation >> Irish Monks, Pictish People, Faeroes and Orkney | Bedtime Viking Stories👑 - Duration: 1:54.

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The Space Between Us

For more infomation >> The Space Between Us

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Build Your Dreams With Lego

For more infomation >> Build Your Dreams With Lego

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The mysteries of Slow-motion! - [Science 2.0] - Duration: 9:05.

If there is one thing that's always classy,

whether in cinema or research, it has to be slow-motion.

So today our Science 2.0 will become a bit more technical

and we'll take a look deep into how high-speed cameras work.

In order to understand, we need to start on a good basis.

A video, whether it be a movie or the one you're currently watching,

is simply a sequence of still images.

In this case, this one is at 25 frames per second (fps), the PAL standard.

So the camera that's filming me right now captures 25 frames in 1 second,

and what you see is just the sequence of those images, put end to end.

A high speed camera will actually take many more frames per second.

And even if it seems counter-intuitive, you'll see that it's actually very logical.

Let's take an example with this sequence.

If you want to slow it down, you need to decrease the playback rate,

but it quickly becomes jerky and you don't see much more information.

Now, assume this camera is running at a speed of 2500fps.

In the amount of time a normal camera would take only a single new frame,

this one has time to capture 100.

So if you slow this new video down to 25fps,

the result with still be smooth and now you can see all the details of the action.

Now that we understand the principle, we need to try it out,

but there are still a lot of things to know about high speed cameras.

So, first thing that is super important to know,

a high-speed camera absolutely doesn't run like a regular one where you just hit record and then stop.

It runs with a Buffer, which is basically RAM memory,

that will be filled little by little by frames recorded permanently,

and when you trigger the camera, it only records - say 8, or a couple seconds before you pushed.

Yes, it only records for a few seconds, because generally,

2 or 3 seconds of video equals several tens of gigs of files, really.

So without further adieu, a little demonstration with a water balloon, classic.

So now I'm going to start recording...

Now the Chronos is constantly saving new frames and erasing the past, so when I pop the balloon...

I have 8 seconds to trigger the camera, or the images will shift into the memory and disappear.

This is why you often see people run to stop the camera.

Let's see what it looks like.

Right now the video's only in RAM preview, so it's not properly saved.

Here we have the whole video, and as you can se we can scroll

up to the moment, here, where it bursts.

Usually what we do is set an in-point to the video, and a little further an out-point,

and we'll save only this portion, which makes our final video.

Oh yeah..! That's so awesome!

Every high speed operator's worst nightmare.

Light.

These cameras need a ton, there's never too much light when filming in high speed.

And it's even worse when you increase the frame-rate, inevitably.

When you shoot, there's whats called Shutter speed,

it is basically the amount of time during which light can hit the sensor

and thus the image is taken.

When shooting at 25fps, you can set a maximum shutter speed of 1/25s,

because then the next frame comes.

So when you shoot at 10,000fps...

You can't go higher than 1/10,000th of a second, so that lets even less light in. And still!

Shutter speed is usually set as low as possible

to get images as sharp as possible, otherwise you'll end up with motion blur.

Picture yourself the capture of a frame as a disk with a spinning bar.

When they say that the shutter is set to "360°"

it means that light is capture during the full cycle of each frame.

Usually on TV / documentaries, it's set to 180° which is half the frame interval.

But it you want to capture projectiles, explosions or stuff like that,

you need to go down to 30° or even lower.

So imagine shooting at 10,000fps and capturing light during...

a tenth of a 1/10,000th of a second.

Yeah right, you need 3 suns, 2 spotlights and 4 reflectors.

But this light doesn't only need to be powerful,

it overall needs to be continuous.

Because household electrical current is alternative, so if you use regular neon lights,

you will see them flicker at 50 or 60Hz - impossible.

To remedy that, you need to either use LED lights that use DC current,

or big spotlights called HMIs, with a ballast that will provide flicker-free lighting.

Friends, I'm sorry I have to crush your dreams. A high speed camera...

Never captures sound.

TAM. TAM. TAAAAAAAAAAAAAM!

Never.

It never records sound.

I'm gonna show you something.

This is a big microphone. This is a big glass blottle.

I'm going to smash it, film at 3,200fps

and slow sound down the sound just as much as the video, you'll see how absurd it is.

Smashing a bottle and recording sound in slow-motion...Go.

It messed up, I'll do another one.

And triggered!

Now, admire.

So next time that you think the sound is great, think of the hours spent on editing.

And brooming.

So I believe we get it now, that high speed is cool but also very capricious.

So what makes a high speed camera more powerful than another?

To compare them, there's a unit called the gigapixel per second (Gpx/s).

It is basically the number of billions of pixels the camera is capable of saving in one second.

In this case, the Chronos 1.4 captures 1.4 billion per second,

to compare, my friend Stéphane's Phantom is capable of shooting 3.2Gpx/s -

[Stéphane] Eeeh turn on your brain!

- and the most powerful of all... This one...

Runs at 25Gpx/s. There you go.

Some day, some day...

And this number of pixels per second is set in the camera and constant no matter the settings.

That means if you want to double the frame-rate you capture,

you also need to split in half the amount of pixels in each frame.

For instance, say you can capture 1000 x 500 at 5,000fps

if you want to shoot at 10,000fps, you need to crop down to 1000 x 250.

We always hear about Phantom but tons of other models exist;

Olympus makes high-speed cameras, Fastec, Photron...

And the Chronos 1.4, which has the advantage of being affordable.

A Phantom like the one my friend Stéphane has costs €70,000, yes it does.

And the biggest Phantom I was talking about?

Oh, betweet €180k and €220k...

Well that's cool and all but this video needs one more thing... Some slow-mo!

Alright, here's a little compilation of what I got to shoot with this camera,

and everything you've seen in slow-motion on my channel.

[Stéphane] Ok now I'm taking 20 years...

[Laughter]

[Baptiste] Look at your face!

[Stéphane] You've got the cheeks... I think your cheeks drop a lot.

[Laughter]

[Baptiste] Oh my, look at that little smile!

This is the last thing I'll see, I'll see the light!

[Laughter]

I can't feel my toes!

Thank you everybody for watching this high-speed special Science 2.0 !

Big thanks to David Kronstein for lending me this camera,

which doesn't even exist yet but really impressive.

Don't forget to Like, subscribe and Share the video if you enjoyed it!

Thanks.

Merry Science to you!

For more infomation >> The mysteries of Slow-motion! - [Science 2.0] - Duration: 9:05.

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COMO SER UN ASESINO (Assassin's Creed) | Parodia #7 - Duration: 4:32.

After beating all games from the Assassin's Creed saga...

...after spending 400 hours or more trying to discover every hidden secret...

...and defeating the Templars several times...

Finally, I fell prepared to join the brotherhood...

...the Assassin's Creed!

Hello?

No, mom! I'm recording a video!

"HOW TO BE AN ASSASSIN"

Bus! 67!

"ACT IN STEALTH"

"HIDE IN THE SHADOWS"

"KNOW HOW TO FIGHT AND DO PARKOUR TO DEFEAT THE TEMPLARS!

- Give it to me! - Noo!

Mine!

Stop playing "Assassin's Creed", faggot!

Motherf*cker! You steal from me!

Go and do some work, f*cker!

Requiescat in pa----

Requiescat in pace...

What did you do, stupid?? You killed him!!

You had to call the police! You are an assassin!!

Yes, ma'am...

Hello? 911?