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It`s Okay To Be Smart, Can Life Really Be Explained By Physics? (featuring Prof. Brian Cox) (2)

Can Life Really Be Explained By Physics? (featuring Prof. Brian Cox) (2)

you personally. Because what you're doing is you're making,

you're radiating disorder out into the universe in a cavalier fashion

in order that you can live and process information and maintain your structure. But you are actually

making the universe more disordered as a results, and it's getting disordered

faster than it would be if you didn't exist. So it's sort of your fault, the end of time.

So life doesn't just run on energy. It runs on order that we borrow and then pay back. But

how can you use order to actually do stuff? Like move or repair your cells or copy your

DNA. For a minute, let's leave thermodynamics behind and think about one of humanity's oldest

ways of harnessing energy to do work, the water wheel. If you put a water wheel in a still pond,

not much is gonna happen. There's no current moving the water in one direction. Or

more accurately on the molecular level, water is bouncing around in every direction.

That's disordered energy. You can't really do anything with it. But if

we have a situation where all the water is moving in one direction, then that's useful.

This moving water has more order. So we can stick a wheel in it and borrow energy to do work.

Believe it or not, this is essentially what living things do. They tap into sources of highly ordered

energy to power molecular machines. Only, instead of water, that highly ordered source of energy is

protons. The details are complex and definitely worth their own video. But basically when we burn

food using oxygen, we borrow some of its ordered energy to pile up protons inside mitochondria.

Or in a chloroplast, ordered energy from the Sun is used to pile up protons in one place.

And when we let these piled up protons flow out, that's useful energy, like water moving downhill.

[Brian] Then sticks this little thing in it called ATP synthase and that spins around and makes ATP,

and then you do all this stuff. It's literally a water wheel that sits in a waterfall of protons.

We're sort of glorified like mills on a pond, they're just

turning water wheels, they're just very small and perhaps much more complicated. Photosynthesis

is just a way to use the Sun to rip water apart and stack up protons. The mitochondria is the

same thing. It's a little bag that rips things apart and stacks protons up on one side so

that we can wash them through this water wheel and make fuel to continue doing other interesting

things in cells. Literally why the mitochondria is the powerhouse of the cell. Now, you know.

One of the great commonalities in all living things is the way that they manage energy. I'm

thinking in particular of the fact that all living things pump protons around across membranes. And

as far as I'm aware, that's common to everything. I don't think there's an exception to that.

Believe it or not, this universal trait can give us a huge clue as to how life might have started.

Or at least where it started. In the rocks of the deep sea hydrothermal vents, we find

pockets with lots of protons on one side and not many on the other. These proton

rivers are a natural energy source that many scientists believe billions of years ago,

powered the first transition from regular chemistry to living biochemistry.

I tend to think of it, initially, the origin of life is a transition from geochemistry to

biochemistry, which it must have been. You have to have a world, it's geologically active and somehow

chemistry gets sufficiently complex that it can store information and copy.

Information, this is the other key ingredient that seems to separate

living things from nonliving things. So what does that mean? In every living cell,

in addition to the energy or molecular machines that we discussed already, we can find one more

example of complexity and order hiding in this universe that's on the road to disorder.

DNA and the genetic code. One of the biggest discoveries in the history of

biology is that there is a physical molecule that carries the instructions for a living,

DNA. The information is in the structure. It's an arrangement of atoms into an ordered pattern

and that lets us extract some meaning from it and do the interesting things that life does.

Now, spoiler alert, eventually you and me and every living thing on Earth will die. But life

itself will go on, thanks to this information stored in ourselves. Because I share some of

that information with you. I share some with other apes, I even share some of the banana. The

instructions for living are a form of information that's bigger than any one living thing.

My picture is, that really the Earth is a giant genetic database. And it happens that that data

is stored in little local objects. So there are bits of it. So there's some in me and some

in blades of grass and so on. 'Cause what we're talking about here is that just the ever shifting

gradual change in where the information is stored in this great database of life.

But this brings up one more big problem. And it's one that we don't have an answer for. If

we could somehow go back through time, meeting every ancestor along the way from early animals

to single celled microbes, all the way back to something so simple, it can copy itself using

only chemical reactions. Well, at what point do you decide that's the first living thing?

It's a label, isn't it? It's semantics, I think.

It reminds me of the debate in astronomy about whether Pluto is a planet.

'Cause I first of all, don't care, but that's because I'm not a professional astronomer.

They spend ages having meetings, and defining what a planet is. Actually, it's an interesting world

that orbits around a star. It might not clear its own way, it might not be big enough to be a planet

and so on, but it's just an interesting world. So, I don't care what it is. I think we'll only

truly understand how life could begin, when we see a second genesis somewhere. Which that's why Mars

is so interesting and so important, because it's the most accessible, possible example.

It's interesting to note that if we're interested in questions about the origin of life, it might

be easier to see that on Mars than it is on Earth 'cause on Earth, the evidence has been wiped away.

The only evidence we have is in our genome. It's the living things today, which are separated

by 3.8 billion years or so from the first living things. But on Mars, it's been in deep freeze with

little geology and no weathering for well over three billion years. So if life began on Mars,

we may well have more pristine evidence of how it began on that planet, than we have on this planet.

Of course not everyone thinks that these are questions that science can answer. I

had a professor in college, a biochemistry professor, who once told us that finding a

useful definition for life well, science couldn't help you there. As he put it,

"It was a question for poets." And I asked Brian, if he agreed with that.

Our presence in the universe is probably the most,

well it's amongst the most interesting scientific questions. And arguably the

most important and interesting scientific question. How did we come to be here?

And that doesn't just mean, how did the universe begin? It means literally how did, on this planet,

how did atoms get complex enough to start exploring the universe? Living things are one of

the categories of objects that are created by the laws of nature, permitted to exist by the laws of

nature. Another one are stars. So we understand, we say, well, let's understand the origin of the

stars and we know what we're talking about. So I think in that sense, it's perfectly reasonable to

say, well, let's understand the origin of the living things. 'Cause the living things are

a structure in the way that stars are a structure. They're just a lot more complicated. It's the most

profound question, how did life emerge in this universe? In the live shows, I start with the

question, what does it mean to live a finite, fragile life in an infinite eternal universe?

Then I immediately say that I don't know because if I knew I'd charge more for tickets

At least you're honest.

Or actually,

When we look at everything that we know about being alive and we try to distill

it down to protons and the movement of heat and energy from here to there

or that the letters of the genetic code are just a repeating pattern of information,

that can be uncomfortable. I mean, being alive certainly feels like more than that.

Nature forces you into uncomfortable position sometimes.

Often, when you look at it. And that's good for you, It's good for you to be confused.

I hope that that idea applies to life. Because uncertainty can be excitement.

And it's what sets you at the edge of when you're standing at the cliff of, at the edge

of human knowledge. I mean stepping forward is exciting. You're skydiving into the unknown.

I think it's one of the great unanswered questions and that's what makes it interesting. And

that's what I'm interested in. I'm interested in questions that we've not yet answered,

but we have a chance of groping towards an answer.

Stay curious.

If you enjoyed this episode and you'd like to learn more

about Professor Brian Cox and all of his science communication work,

you can check him out here. Or just follow the links down in description.

Thank you to Policygenius for supporting PBS. Policygenius is an insurance marketplace,

not an insurance company. Policygenius combines that marketplace experience with online tools,

and education library on all sorts of insurance topics

and guidance from humans to get you covered. For example, if you're searching for life insurance,

Policygenius offers info and quotes for most insurance companies all at once. You

can get personalized quotes, apply online, and compare your quotes all in one place.

Additionally, Policygenius offers advice from people who work in the industry. Their team

handles the paperwork, scheduling, and negotiating with the insurance company on your behalf,

as part of the service. For more information, click the link in the description below.

And as always, a huge thank you to everyone who supports the show on Patreon. Patreon is

a way that you can support this show directly. No algorithms, no AI, just you saying, you love

this science and you wanna see more of it. If you'd like to find out more about how you can

support the show, check out the links down in the description, and we'll see you in the next video.

And one more thing before you go, what can somebody who is completely blind teach you about

video games? How did Anime become a $25billion industry? And why are these guys putting underwear

on goats? Those are all great questions. And "Subcultured," a new documentary series from PBS,

answers those questions and so many more, exploring lesser known communities and the

folks that have had a major impact on the mainstream. You can check it

out over on "PBS Voices." There's a link in our description, and let them know that Joe sent you.

Really? Really? Really? Really? How high can I get?

Erwin Schrodinger.

[Man] Schnell! Schnell!

If you must have the Erwin Schrodinger,

remain inquisitive.

[Man] Nailed it.

Learn languages from TV shows, movies, news, articles and more! Try LingQ for FREE

Can Life Really Be Explained By Physics? (featuring Prof. Brian Cox) (2) Kann das Leben wirklich durch Physik erklärt werden? (mit Prof. Brian Cox) (2) ¿Puede la física explicar la vida? (con el profesor Brian Cox) (2)

you personally. Because what  you're doing is you're making,

you're radiating disorder out into  the universe in a cavalier fashion |辐射|混乱|||这个||||漫不经心|方式 |випромінюючи||||||||легковажно|

in order that you can live and process information  and maintain your structure. But you are actually ||||||||||||结构||||

making the universe more disordered as  a results, and it's getting disordered ||||无序的|||||||

faster than it would be if you didn't exist.  So it's sort of your fault, the end of time. |||||||||||某种程度上|||错||||

So life doesn't just run on energy. It runs  on order that we borrow and then pay back. But

how can you use order to actually do stuff?  Like move or repair your cells or copy your ||||||||事情||||||细胞|||

DNA. For a minute, let's leave thermodynamics  behind and think about one of humanity's oldest ||||||热力学||||||||

ways of harnessing energy to do work, the water  wheel. If you put a water wheel in a still pond, ||利用||||||||||||||||静止的|池塘 |||||||||||||||||||pond

not much is gonna happen. There's no current  moving the water in one direction. Or

more accurately on the molecular level,  water is bouncing around in every direction. |更准确地|||||||||||

That's disordered energy. You can't  really do anything with it. But if

we have a situation where all the water is  moving in one direction, then that's useful.

This moving water has more order. So we can  stick a wheel in it and borrow energy to do work.

Believe it or not, this is essentially what living  things do. They tap into sources of highly ordered

energy to power molecular machines. Only, instead  of water, that highly ordered source of energy is

protons. The details are complex and definitely  worth their own video. But basically when we burn

food using oxygen, we borrow some of its ordered  energy to pile up protons inside mitochondria.

Or in a chloroplast, ordered energy from the  Sun is used to pile up protons in one place. |||хлоропласт||||||||||||||

And when we let these piled up protons flow out,  that's useful energy, like water moving downhill.

[Brian] Then sticks this little thing in it called  ATP synthase and that spins around and makes ATP, ||||||||||синтаза ATP|||||||

and then you do all this stuff. It's literally a  water wheel that sits in a waterfall of protons. ||||||||||||||||водоспад||

We're sort of glorified like  mills on a pond, they're just |||||млини|||||

turning water wheels, they're just very small  and perhaps much more complicated. Photosynthesis

is just a way to use the Sun to rip water apart  and stack up protons. The mitochondria is the

same thing. It's a little bag that rips things  apart and stacks protons up on one side so |||||||рве||||||||||

that we can wash them through this water wheel  and make fuel to continue doing other interesting

things in cells. Literally why the mitochondria  is the powerhouse of the cell. Now, you know.

One of the great commonalities in all living  things is the way that they manage energy. I'm ||||спільні риси||||||||||||

thinking in particular of the fact that all living  things pump protons around across membranes. And думки|||з||||||||||||

as far as I'm aware, that's common to everything.  I don't think there's an exception to that.

Believe it or not, this universal trait can give  us a huge clue as to how life might have started.

Or at least where it started. In the rocks  of the deep sea hydrothermal vents, we find

pockets with lots of protons on one side  and not many on the other. These proton

rivers are a natural energy source that many  scientists believe billions of years ago,

powered the first transition from  regular chemistry to living biochemistry. |||||||||біохімія

I tend to think of it, initially, the origin  of life is a transition from geochemistry to |||||||||||||||геохімія|

biochemistry, which it must have been. You have to  have a world, it's geologically active and somehow |||||||||||||геологічно|||

chemistry gets sufficiently complex  that it can store information and copy. ||достатньо складно||||||||

Information, this is the other key  ingredient that seems to separate

living things from nonliving things. So  what does that mean? In every living cell, |||неживий||||||||||

in addition to the energy or molecular machines  that we discussed already, we can find one more

example of complexity and order hiding in  this universe that's on the road to disorder.

DNA and the genetic code. One of the  biggest discoveries in the history of

biology is that there is a physical molecule  that carries the instructions for a living,

DNA. The information is in the structure. It's  an arrangement of atoms into an ordered pattern |Ця||||||||||||||

and that lets us extract some meaning from it  and do the interesting things that life does.

Now, spoiler alert, eventually you and me and  every living thing on Earth will die. But life |спойлер|||||||||||||||

itself will go on, thanks to this information  stored in ourselves. Because I share some of

that information with you. I share some with  other apes, I even share some of the banana. The

instructions for living are a form of information  that's bigger than any one living thing.

My picture is, that really the Earth is a giant  genetic database. And it happens that that data

is stored in little local objects. So there  are bits of it. So there's some in me and some

in blades of grass and so on. 'Cause what we're  talking about here is that just the ever shifting ||||||||||||||що||||

gradual change in where the information  is stored in this great database of life.

But this brings up one more big problem. And  it's one that we don't have an answer for. If

we could somehow go back through time, meeting  every ancestor along the way from early animals

to single celled microbes, all the way back to  something so simple, it can copy itself using

only chemical reactions. Well, at what point  do you decide that's the first living thing?

It's a label, isn't it? It's semantics, I think. ||||||semantics|| ||||||семантика||

It reminds me of the debate in astronomy  about whether Pluto is a planet.

'Cause I first of all, don't care, but that's  because I'm not a professional astronomer.

They spend ages having meetings, and defining what  a planet is. Actually, it's an interesting world

that orbits around a star. It might not clear its  own way, it might not be big enough to be a planet

and so on, but it's just an interesting world.  So, I don't care what it is. I think we'll only

truly understand how life could begin, when we see  a second genesis somewhere. Which that's why Mars

is so interesting and so important, because  it's the most accessible, possible example.

It's interesting to note that if we're interested  in questions about the origin of life, it might

be easier to see that on Mars than it is on Earth  'cause on Earth, the evidence has been wiped away.

The only evidence we have is in our genome. It's  the living things today, which are separated

by 3.8 billion years or so from the first living  things. But on Mars, it's been in deep freeze with

little geology and no weathering for well over  three billion years. So if life began on Mars, ||||вивітрювання||||||||||||

we may well have more pristine evidence of how it  began on that planet, than we have on this planet. ми|||||недоторканий||||||||||||||

Of course not everyone thinks that these  are questions that science can answer. I

had a professor in college, a biochemistry  professor, who once told us that finding a мав||||||||||||||

useful definition for life well, science  couldn't help you there. As he put it,

"It was a question for poets." And I  asked Brian, if he agreed with that. |||||поети|||||||||

Our presence in the universe is probably the most,

well it's amongst the most interesting  scientific questions. And arguably the ||серед||||||||

most important and interesting scientific  question. How did we come to be here?

And that doesn't just mean, how did the universe  begin? It means literally how did, on this planet,

how did atoms get complex enough to start  exploring the universe? Living things are one of

the categories of objects that are created by the  laws of nature, permitted to exist by the laws of ||||||||||||дозволені||||||

nature. Another one are stars. So we understand,  we say, well, let's understand the origin of the

stars and we know what we're talking about. So I  think in that sense, it's perfectly reasonable to

say, well, let's understand the origin of the  living things. 'Cause the living things are

a structure in the way that stars are a structure.  They're just a lot more complicated. It's the most

profound question, how did life emerge in this  universe? In the live shows, I start with the

question, what does it mean to live a finite,  fragile life in an infinite eternal universe? |||||||||крихкий|||||вічний|

Then I immediately say that I don't know  because if I knew I'd charge more for tickets

At least you're honest.

Or actually,

When we look at everything that we know  about being alive and we try to distill |||||||||||||||distill |||||||||||||||узагальнити

it down to protons and the movement  of heat and energy from here to there

or that the letters of the genetic code are  just a repeating pattern of information,

that can be uncomfortable. I mean, being  alive certainly feels like more than that.

Nature forces you into  uncomfortable position sometimes.

Often, when you look at it. And that's good  for you, It's good for you to be confused.

I hope that that idea applies to life.  Because uncertainty can be excitement.

And it's what sets you at the edge of when  you're standing at the cliff of, at the edge

of human knowledge. I mean stepping forward is  exciting. You're skydiving into the unknown. ||||||||||парашутний спорт|||

I think it's one of the great unanswered questions  and that's what makes it interesting. And

that's what I'm interested in. I'm interested  in questions that we've not yet answered,

but we have a chance of groping towards an answer. ||||||groping||| ||||||пошуку|||

Stay curious.

If you enjoyed this episode  and you'd like to learn more

about Professor Brian Cox and all  of his science communication work,

you can check him out here. Or just  follow the links down in description.

Thank you to Policygenius for supporting PBS.  Policygenius is an insurance marketplace,

not an insurance company. Policygenius combines  that marketplace experience with online tools,

and education library on all  sorts of insurance topics

and guidance from humans to get you covered. For  example, if you're searching for life insurance,

Policygenius offers info and quotes for  most insurance companies all at once. You

can get personalized quotes, apply online,  and compare your quotes all in one place. ||персоналізовані|||||||||||

Additionally, Policygenius offers advice from  people who work in the industry. Their team

handles the paperwork, scheduling, and negotiating  with the insurance company on your behalf, |||||переговори|||||||

as part of the service. For more information,  click the link in the description below.

And as always, a huge thank you to everyone  who supports the show on Patreon. Patreon is

a way that you can support this show directly.  No algorithms, no AI, just you saying, you love

this science and you wanna see more of it. If  you'd like to find out more about how you can

support the show, check out the links down in the  description, and we'll see you in the next video.

And one more thing before you go, what can  somebody who is completely blind teach you about

video games? How did Anime become a $25billion  industry? And why are these guys putting underwear ||||Аніме|||||І||||||білизна

on goats? Those are all great questions. And  "Subcultured," a new documentary series from PBS, |кози|||||||підкультурний||||||

answers those questions and so many more,  exploring lesser known communities and the ||||||||менш відомі||||

folks that have had a major impact  on the mainstream. You can check it |||||||||основний напрям||||

out over on "PBS Voices." There's a link in our  description, and let them know that Joe sent you.

Really? Really? Really?  Really? How high can I get?

Erwin Schrodinger. Erwin|Schrödinger

[Man] Schnell! Schnell! |rápido|rápido |Швидко|Швидко Швидко

If you must have the Erwin Schrodinger,

remain inquisitive. |inquisitive

[Man] Nailed it. |Зробив це|