Thứ Hai, 9 tháng 10, 2017

Youtube daily report Oct 9 2017

Hey there and welcome to Life Noggin.

One thing I love about my human friends is that you come from all over this beautiful

Earth.

But what if one of my future friends was born beyond Earth?

What would it be like to be born in space?

Well, obviously being born in space would grant you powers like heat vision, super speed,

super strength, and give you an affinity for journalism.

Oh wait, sorry, I was just thinking of my buddy Kara.

Fictional fantasies aside, being born in space or someplace other than Earth might be a little

harder than you might think.

This is in part due to gravity.

One recent study from the University of Montreal found that the reproductive process of plants

was affected by changes in gravity.

They found that both hypergravity and simulated microgravity had an effect.

While the reproductive systems of plants are obviously different than a human's, this

can still give us some insight to how a human's reproductive system might be affected under

different gravitational conditions.

However, the recent Space Pup experiment seems to give a more positive light on the possibility

of humans being born in space.

Space Pup sounds like the most adorable superhero ever, but it's actually a study of what

being on the International Space Station would do to freeze-dried mouse sperm.

Although some slight DNA damage occurred, being on the ISS did not impair the birth

rate or the normality of the offspring that came from the sperm.

Still, mice are not the same as humans, but this study leaves me a bit more optimistic

on the thought of human babies being born in space.

Overall, it seems to be a little unclear one way or the other on how feasible it is to

be born in space, but if we make the assumption that is indeed feasible, just what might a

little stellar tike be like?

Since the only places humans have been other than Earth is the Moon and our spacecrafts,

it makes the most sense to look there as potential new birthplaces.

If someone was born on a place like the International Space Station, that baby might develop problems

with muscle mass, bone density, and even cardiovascular health.

Astronauts on the ISS typically exercise around 2 hours or more every day to counteract the

effects of weightlessness on the human body.

Without doing so, they'd be more likely to develop the problems mentioned earlier.

While adult astronauts can be proactive by exercising, I don't think a baby will be

able to hit the gym as soon as they're born.

Come on, chug that protein shake!

Also, if a baby was born on the ISS, or maybe a space installation on the moon, there is

a good chance that they would develop behavioral issues.

NASA has learned that it's basically inevitable for behavioral issues to occur among groups

of people crammed in a small space over a long time, so unless our little friend is

given more hospitable conditions than our astronauts are used to, they'd probably

develop some problems.

These could include a decline in mood, cognition, or interpersonal interaction.

One recent finding that could prove interesting for a space-born baby comes from NASA's

Twin Study.

This study looks as what nearly a year in space would do to astronaut Scott Kelly, compared

to his twin brother, Mark, who remained on Earth.

They found that Scott's telomeres on the ends of his white blood cell chromosomes increased

in length while in space.

They reported that it could be linked to increased exercise and reduced caloric intake, but it

would be pretty amazing if it turns out it was because of his time in space.

We've explored in the past how shortening telomeres seem to be related to aging, so

this could potentially be some big news!

So what do you think?

Will humanity soon have a baby born in space?

Let me know in the comments below!

Make sure you come back every Monday for a brand new video.

As always, I'm Blocko and this has been Life Noggin.

Don't forget to keep on thinking!

For more infomation >> What Would Happen If You Were Born In Space? - Duration: 3:45.

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[KOR/ENG SUB] [M/V] ZENE THE ZILLA - 호잇 HOiiiT ☄ ft. RiiiSKY - Duration: 3:06.

SLRO, let's play that shit

We make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

We make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

ya we make a circle: compass (circle)

ya we chop and share: pork cutlet

I got XXX but I ain't no Tentacion

chain on my neck and it's too shiny (bling!)

I'm sorry to Benjamin, Imma broke boy (I'm sorry to)

gonna high with 퇴계 이황 (go to far) *퇴계 이황 is a great man drawn on a ₩1,000 bill

SAMSUNG is noisy but I don't care (Brrr Brrr Brrr Brrr)

RiiiSKY is a Dooly and Imma Piccolo

Special Beam Cannon, pi-yoong

my money is stock like 키움 *키움 is a one of the Korean stocks

if u still don't know this, u're a jerk

without a budget, my reply is 'ㄴ' *the meaning of 'ㄴ' is 'No'

We make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

we make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

hoit, roll-up a ₩1,000 bill, ya, hoit, drink water, ya

hoit, whole body is chill out, ya, hoit, witchcraft, ya

hoit, rap like automatic, hoit I'll reach the cloud

hoit, zilla is LAF, too, add more helium to the balloon

woo ya I rockin Triple A

woo ya your style is bad

hoit hoit thought it was Dooly, but it's Zilla

ya chain is brighter on my neck

ya they don't move like a beeswax, ya fuck

We make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

We make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

For more infomation >> [KOR/ENG SUB] [M/V] ZENE THE ZILLA - 호잇 HOiiiT ☄ ft. RiiiSKY - Duration: 3:06.

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MATSUSHIMA WITH JAYOE - DRONE IN GIAPPONE - Duration: 6:17.

Special one day in my life I will meet Mett youtuber from USA

he decide to travel all Japan ( and world)

with schlumpf

and make movie about this travel on youtube channel

the travel is amazing, the movie also

he sand me message before come in Sendai.

In friday we ate sushi and we talk about the trip

so we plane to visit one town close to Sendai, Matsushima and make movie togheter

It's important to push if you want to take the train XD. PuSH! Push!

common push! puch! Not worry that we all come in

we arrive to Matsushima

"welcome"

please!

Godaido Hall tample

we have drone, it's not noisy as I thought

not , not

oyster farms

yep I use drone (for the first time)

wow

ce l'ho fatta senza distruggere il tuo drone

JA YOE!

è sulla tua maglietta, cappello è ovunque

sulla tua """bici""" domanda ma chi sei?

Cosa hai fatto? Perchè stai viaggiando per tutto il Giappone

con una bici ( ma non è una bici )

Il Giappone è solo una piccola parte di quello che voglio fare, poi non é una bici ma trike

hai sbagliato in tutte e due le cose XD

ops! scusa !

no no va bene è divertente XD

Sto viaggiando attraverso il mondo da circa un anno

Il mio progetto e viaggiare dalla CIna (dopo l'Australia)

attraversando l'Europa fino al ritorno in America

il mio viaggio attraverso il mondo durerà più o meno 10 anni

e racconto il mio viaggio attraverso vlog tutti i giorni

per viaggiare uso un trike di produzione tedesca

ho la mia videocamera il drone

tutti il necessario con me tenda, vestiti , ecc

il mio computer

tutto quello che ho bisogno è con me

il necessario per diventare un travel vlog su youtube

tutti i link sono in descrizione e nel primo commento

lui ha fatto volare il drone!

ricordate se un giorno comprerò il drone sarà sua la colpa XD

non sei l'unico che ha comprato il drone per oclpa mia XD

grazie per il tuo tempo.

Non c'è problema

we try oysters now, she open for us now

Japan and fresh food

600 yen for 2

soooo good !!!

THANKS FOR WATCH SHARE AND SUBSCRIBE

For more infomation >> MATSUSHIMA WITH JAYOE - DRONE IN GIAPPONE - Duration: 6:17.

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Honda FR-V 2.2 CTDi Lifestyle 6 Pers Bj 2005 !!! - Duration: 1:01.

For more infomation >> Honda FR-V 2.2 CTDi Lifestyle 6 Pers Bj 2005 !!! - Duration: 1:01.

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Inventarland kører fødelsesdagskage ud til kunderne v-17-25 - Duration: 0:54.

For more infomation >> Inventarland kører fødelsesdagskage ud til kunderne v-17-25 - Duration: 0:54.

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MaxWrist Series Premiere October 23rd Extended Trailer (Sneak Peek) - Duration: 11:33.

Thanks Vikings: War of Clans for sponsoring this video

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For more infomation >> MaxWrist Series Premiere October 23rd Extended Trailer (Sneak Peek) - Duration: 11:33.

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விபச்சார வழக்கில் சிக்கிய கவர்ச்சி நடிகை வினிதா என்ன ஆனார் தெரியுமா? Tamil Cinema News | Tamil News - Duration: 1:31.

For more infomation >> விபச்சார வழக்கில் சிக்கிய கவர்ச்சி நடிகை வினிதா என்ன ஆனார் தெரியுமா? Tamil Cinema News | Tamil News - Duration: 1:31.

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Supergirl 3x01 Sneak Peek #2 "Girl of Steel" (HD) Season 3 Episode 1 Sneak Peek #2 - Duration: 1:11.

Kara Danvers.

Kara Danvers sucks right now!

Supergirl is great.

Supergirl saved the world.

So if I could chose to be her,

why would I ever choose to be the sad girl who's boyfriend is gone?

I know it hurts, okay?

No, no! You don't know anything!

You've never had to make a decision like this!

Okay, then tell me what it feels like.

Let me help you get over him.

Get over him?

That's...

He didn't dump me.

I sent him away and for all I know he's...

What?

It doesn't matter.

You're not letting yourself feel anything.

You're just bottling it up inside and you are making bad decisions.

And I'm worried.

If it were Maggie, what would you be doing?

I'd...

You'd be at the bar every night.

You'd be a wreck at work.

You'd be broken.

I would.

I would be.

And it's okay if you are...

I'm not.

That's what humans do.

I'm better than that.

For more infomation >> Supergirl 3x01 Sneak Peek #2 "Girl of Steel" (HD) Season 3 Episode 1 Sneak Peek #2 - Duration: 1:11.

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Will & Grace - How Jack Got His Body Back (Episode Highlight) - Duration: 1:31.

For more infomation >> Will & Grace - How Jack Got His Body Back (Episode Highlight) - Duration: 1:31.

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😈 Learn English Words - DASTARDLY - Meaning, Vocabulary With Pictures and Examples - Duration: 1:25.

Dastardly wicked, evil, and cruel

The counterfeiter's dastardly scam was perfected to such a degree that it took decades for

the FBI to track him down.

The trial exposed the dastardly methods utilized by the mob to acquire huge sums of money.

Martha was warned not to fly to Somalia on a business trip because of the dastardly way

that business is conducted in that country.

How dastardly of Hitler to trick Stalin into a treaty which he intended to violate from

the get-go.

The dastardly deeds committed by the pirates were recounted at the mock trial, and they

were all hanged in effigy.

Dastardly wicked, evil, and cruel

For more infomation >> 😈 Learn English Words - DASTARDLY - Meaning, Vocabulary With Pictures and Examples - Duration: 1:25.

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Setting Drag Bike MX 200cc for the Drag Race vs Raider 150 Open - Duration: 3:08.

Drag Bike MX 200cc for the Drag Race Battle vs Raider 150cc Open

For more infomation >> Setting Drag Bike MX 200cc for the Drag Race vs Raider 150 Open - Duration: 3:08.

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75 வயதாகி குழந்தை பெற்ற நடிகர் | Tamil Cinema News | Kollywood Gossips | Tamil Rockers | Tamil News - Duration: 1:53.

For more infomation >> 75 வயதாகி குழந்தை பெற்ற நடிகர் | Tamil Cinema News | Kollywood Gossips | Tamil Rockers | Tamil News - Duration: 1:53.

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Wrong Face Paw Patrol Pj Marks Talking Tom Anna Princess Daddy Finger Family Song Nursery Rhymes - Duration: 1:56.

Wrong Face Paw Patrol Pj Marks Talking Tom Anna Princess Daddy Finger Family Song Nursery Rhymes

For more infomation >> Wrong Face Paw Patrol Pj Marks Talking Tom Anna Princess Daddy Finger Family Song Nursery Rhymes - Duration: 1:56.

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FALL COOKIES SET MADE W/ JUST 1 COOKIE CUTTER! - SET DI BISCOTTI AUTUNNALI CON 1 SOLO CUTTER-SUB ITA - Duration: 3:30.

For more infomation >> FALL COOKIES SET MADE W/ JUST 1 COOKIE CUTTER! - SET DI BISCOTTI AUTUNNALI CON 1 SOLO CUTTER-SUB ITA - Duration: 3:30.

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THE WORD OF THE WEEK | Cooperate | PBS KIDS - Duration: 0:16.

♪ Word of the Week ♪

♪ Word of the Week ♪

♪ PBS KIDS Word of the Week ♪

The Word of the Week is...

ASSIST!

Assist means to help someone do something,

like clean up after dinner!

Assist!

It's The Word of the Week.

♪ The Word of the Week ♪

For more infomation >> THE WORD OF THE WEEK | Cooperate | PBS KIDS - Duration: 0:16.

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MƯA ‣ NHỮNG BÀI HÁT HAY NHẤT VỀ MƯA - Duration: 1:22:49.

For more infomation >> MƯA ‣ NHỮNG BÀI HÁT HAY NHẤT VỀ MƯA - Duration: 1:22:49.

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శనీశ్వరుని గురువు ఎవరు | Shaneeshwara | Shani Dosha Nivarana In Telugu | KALABHAIRAVA GURU | Telugu - Duration: 3:45.

PLEASE SUBSCRIBE SHARE LIKE

For more infomation >> శనీశ్వరుని గురువు ఎవరు | Shaneeshwara | Shani Dosha Nivarana In Telugu | KALABHAIRAVA GURU | Telugu - Duration: 3:45.

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'So Much Worse Than Bridgegate': Vice President Mike Pence's Walk-Out | Morning Joe | MSNBC - Duration: 6:58.

For more infomation >> 'So Much Worse Than Bridgegate': Vice President Mike Pence's Walk-Out | Morning Joe | MSNBC - Duration: 6:58.

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BMW M4 Araba Çizimi #Dream 👍👍 - Duration: 5:37.

Hello friends welcome you all to my channel

Today I made the BMW M4 Car drawing

Dislike and do not forget to leave a comment.

Your comments and suggestions are very valuable to me.

a good time :)

Dislike and do not forget to leave a comment.

Your comments and suggestions are very valuable to me.

For more infomation >> BMW M4 Araba Çizimi #Dream 👍👍 - Duration: 5:37.

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2017-10-09 НСФЛ 2017-18. Премьер-группа. 3 тур. ТГУ - КубГУ - Duration: 1:47:55.

For more infomation >> 2017-10-09 НСФЛ 2017-18. Премьер-группа. 3 тур. ТГУ - КубГУ - Duration: 1:47:55.

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Mercedes-Benz B-Klasse 200 CDI 136pk Automaat Ambition Leder/Navigatie/Panoramadak/Trekhaak - Duration: 1:01.

For more infomation >> Mercedes-Benz B-Klasse 200 CDI 136pk Automaat Ambition Leder/Navigatie/Panoramadak/Trekhaak - Duration: 1:01.

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DSI B BLOCK 10.08.17 - Duration: 5:30.

For more infomation >> DSI B BLOCK 10.08.17 - Duration: 5:30.

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Mercedes-Benz B-Klasse 150 BlueEfficiency - Duration: 1:00.

For more infomation >> Mercedes-Benz B-Klasse 150 BlueEfficiency - Duration: 1:00.

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Mercedes-Benz B-Klasse 160 BLUEEFFICIENCY Panoramadak - Duration: 1:01.

For more infomation >> Mercedes-Benz B-Klasse 160 BLUEEFFICIENCY Panoramadak - Duration: 1:01.

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Volkswagen Polo 1.6-16V COMFORTLINE - Duration: 1:01.

For more infomation >> Volkswagen Polo 1.6-16V COMFORTLINE - Duration: 1:01.

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José Arnáiz se destapa como un posible relevo de Dembélé - Duration: 2:48.

For more infomation >> José Arnáiz se destapa como un posible relevo de Dembélé - Duration: 2:48.

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Renault Laguna 2.0 DCI DYNAMIQUE CLIMA,NAVI,TREKHAAK - Duration: 0:54.

For more infomation >> Renault Laguna 2.0 DCI DYNAMIQUE CLIMA,NAVI,TREKHAAK - Duration: 0:54.

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Peugeot 208 5-deurs Active Plus 1.6 BlueHDi 100 pk | WEINIG KILOMETERS | - Duration: 0:54.

For more infomation >> Peugeot 208 5-deurs Active Plus 1.6 BlueHDi 100 pk | WEINIG KILOMETERS | - Duration: 0:54.

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18 MOST PROFITABLE LOW BUDGET MOVIES EVER - Duration: 3:04.

MOST PROFITABLE LOW BUDGET MOVIES

MOST PROFITABLE LOW BUDGET MOVIES MOST PROFITABLE LOW BUDGET MOVIES

MOST PROFITABLE LOW BUDGET MOVIES MOST PROFITABLE LOW BUDGET MOVIES

For more infomation >> 18 MOST PROFITABLE LOW BUDGET MOVIES EVER - Duration: 3:04.

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Featuring Musician Megan Ni...

For more infomation >> Featuring Musician Megan Ni...

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For more infomation >> Featuring Musician Megan Ni...

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Nissan QASHQAI 1.2 N-CONNECTA - Duration: 0:57.

For more infomation >> Nissan QASHQAI 1.2 N-CONNECTA - Duration: 0:57.

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For more infomation >> Nissan QASHQAI 1.2 N-CONNECTA - Duration: 0:57.

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Ford Mondeo Wagon BWJ 2013 1.6 TDCI 130 PK ECONETIC LEASE TITANIUM CLIMA/CRUISE/LMV/PDC/LEER/XENON/N - Duration: 0:54.

For more infomation >> Ford Mondeo Wagon BWJ 2013 1.6 TDCI 130 PK ECONETIC LEASE TITANIUM CLIMA/CRUISE/LMV/PDC/LEER/XENON/N - Duration: 0:54.

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For more infomation >> Ford Mondeo Wagon BWJ 2013 1.6 TDCI 130 PK ECONETIC LEASE TITANIUM CLIMA/CRUISE/LMV/PDC/LEER/XENON/N - Duration: 0:54.

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Sinner's Heist - Broken (feat. Heather Sommer) - Duration: 3:38.

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

Sinner's Heist - Broken (feat.

Heather Sommer)

For more infomation >> Sinner's Heist - Broken (feat. Heather Sommer) - Duration: 3:38.

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For more infomation >> Sinner's Heist - Broken (feat. Heather Sommer) - Duration: 3:38.

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GEOSC10 Unit 7 Lecture: Tearing Down Mountains, glaciers, glaciation & ice ages - Duration: 1:04:25.

Good morning.

Welcome to Geosc 10, Geology Of The National Parks.

Today we're going to be talking about my very favorite

subject in geology, glaciers.

My name is Sridhar Anandakrishnan, and I'll be

your guide through some of the most amazing

scenery on the planet.

And some of the most important geology that we have today, in

my opinion.

We're going to be talking about glaciers, and ice

sheets, and sea level.

And sea level impacts you.

You might never see a glacier in your life, but I guarantee

that you know about how sea level affects beaches and

coastline communities, and your life is going to be

effected by that.

So let's go and first have a quick look at some of these

lovely places, and then we'll come back to the presentation.

Today's tearing down mountains.

Glaciers are wonderful at destroying mountains.

They're one of the best ways we have to both destroy

mountains and to make them beautiful.

If you didn't have glaciers, these mountains would look

very, very different than what they do today.

This is Yosemite National Park in California.

It's just up from San Francisco.

You can fly into San Francisco, and drive, and

you'll be up there in Yosemite in three hours, four hours,

something like that.

It's one of the most famous places because of people like

John Muir, and the amazing photography that

has come out there.

Some of the history of the place.

So it's something that is almost legendary in

conservation circles and in mountain climbing.

This is Bridalveil Falls over on the right over there.

And the classic shape of that valley, going up from it, that

U-shape for it tells us that this was glaciated.

And we'll find out why that U-shape

tells us it was glaciated.

And you just look at it way in the back, there.

You have Half Dome.

And there's probably people that are crawling

up the side of it.

It's one of the classic climbs of the world.

Here's a close up shot of that Bridalveil and showing that

sort of rounded valley heading up from the falls.

Here's Lower Yosemite Falls.

There's all these waterfalls all through there.

We're on the lee side, the Pacific side of the Sierra

Nevada mountains.

Remember last time we talked about, in the Redwood National

Parks section, how we talked about when the winds, these

wet, cool winds come along, and they start to rise up the

mountain, and they get colder and colder, the air gets

colder and colder, and then all the water

gets squeezed out.

Well, here's where it gets squeezed out.

It gets squeezed out in Yosemite National Park.

And so you've got tons of water pounding

down through there.

And then you have these beautiful valleys, and then

all the water comes cascading down the sides.

Here's another picture of Half Dome.

The glacier was coming right down that valley.

You can just imagine 20,000 years ago, if you were

standing where this photographer was standing,

you'd just see that whole valley filled up with ice all

the way to the back, and that ice would be

flowing towards you.

And as it flowed along, it would be carving out that

glacier, making it a deeper and deeper, year after year.

And that's why you get these vertical walls.

This is a photograph not in Yosemite, but we've gone off

to Greenland at this point.

This is Scoresbysund.

This is perhaps what Yosemite looked like.

You can see there's a similarity.

You have this big mass of ice coming down.

You've got these huge walls going straight up.

20,000 years ago, instead of this minuscule amount of ice

that we have in here-- it's an enormous amount of ice, but

20,000 years ago, that ice would have been half a mile or

a mile higher up.

It would filled up that whole valley.

This is near the edge of the ice sheet.

There's a blue pond at the surface.

The ice here is perhaps half a mile thick.

So if you were to sit there, and take your shovel, and

start digging, digging, digging, you'd have to dig for

half a mile before you got to rock.

And you can see those big folds where the

ice is flowing down.

A bunch of cracks and crevasses.

If you're trying to travel across that, you could fall

very easily into those.

Absolutely dramatic, gorgeous.

This is [UNINTELLIGIBLE]

glacier in Greenland.

And you can see it flowing.

Those big stripes coming down towards you, those are

individual glaciers that all have come

down and merged together.

And you can still see those bands where they came

together, and then as a valley curves, it comes down.

Here we have a bunch of tributary glaciers where the

green arrow and the red arrow are that have come together,

and these amazing, huge crevasse.

I wouldn't want to be walking across that glacier.

You'd just be falling into those holes all the time.

Another photograph of the glacier.

Here we have some evidence, just the first beginnings of a

clue that glaciers can change their size.

The blue arrows are pointing at where the glacier used to

sit just a little while ago.

About 150 or 200 years ago that glacier used to be at a

different place.

And we can tell that because of the color of the rock, and

the marks on the rock.

And then the glacier has retreated back from there in

the last few hundred years.

This is looking at the side of a glacier, and you have all of

these debris bands in the bottom, and that tells us that

glaciers aren't just these clean, beautiful, white, ice

and snow masses.

They also have all of this rock and mud and debris along

the bottom.

And so, here's a second clue that glaciers

can modify the landscape.

They can rip out rocks and carry them away, and here's

evidence that they do that.

And they're very good at doing that.

All the places in this country that have lakes--

Minnesota, the land of 10,000 Lakes.

The finger lakes in New York.

The Great Lakes themselves, Lake Michigan, Erie, Superior.

All of them are there because there

was an enormous glacier--

an ice sheet, really--

that sat on top of North America, that filled all of

Canada and flowed down into the northern tier of the US,

and as it flowed down, it just churned out these big lakes

and ripped them up.

Here are some of the critters that live in

Yosemite National Park.

And here are some more.

These are not in Yosemite.

This is in Greenland.

Then you can see these striations were the

glacier came by.

But now the glacier's gone, and there are ptarmigan

wondering across that landscape.

Here's another example of what glaciers can do.

Glaciers flow across this, and they just polish it.

It's like taking sandpaper and rubbing it for hundreds and

thousands of years across this rock.

You smooth it and striate it.

Just beautiful.

Snow avalanches coming down.

Just some of the most dramatic scenery.

I've got a confession to make.

I'm not really a geologist. I'm an engineer.

I started out my life as an engineer, and I

worked as an engineer.

And then I got a job to go to an Antarctica and work on an

engineering project.

And I said, man, I got to keep doing this, and I became a

geologist just so I could go and work on glaciers, and

understand them, and continue to go to these absolutely

beautiful places.

Look at this.

Look at that ridge running up there.

If there hadn't been a glacier there, you

wouldn't have that ridge.

The glacier came along and literally chewed away at the

side that mountain.

And there was another one on the other side of the ridge

that chewed away at it, and the two of them formed this

sharp ridge that runs up the side of them.

And then where there's two or three of them that come

together, you get these sharp horns that go up into these

very, very steep peaks.

You wouldn't have it unless you had glaciers doing that.

This is some the most beautiful scenery

that I've ever seen.

This is in Alaska.

Another one of those nice, U-shaped valleys where a

glacier had come pounding down that towards us.

It's all gone now.

Where did it go?

Why did it go?

That's what we're going to be talking about today.

Here's another one.

I can just sit here all day and just show you pictures,

and I'd be perfectly happy.

Unfortunately, we're going to have to go and talk about why

this is important, and we'll do that next.

Let me just run real briefly to Antarctica, and we'll see

some pictures there.

And then we'll go to the real stuff.

So this is Antarctica.

The reason we want to go here is that Antarctica is the best

analog to what Yosemite might have looked like

20,000 years ago.

There's still huge glaciers in Antarctica.

This is a mountain range that's 10,000 feet high.

And that glacier almost fills it right to the top.

Yosemite National Park, the mountains there are 6,000 feet

high, and the glacier once did almost fill that valley.

Same way here, and these glaciers do fill their valley.

And so, we can study these glaciers and learn a lot about

what Yosemite might have looked like 10,000 years ago

or 20,000 years ago.

Here's [? Ketlet's ?]

glacier that's coming down towards us.

You can see those flow stripes.

And as I said, those are enormous mountains, but

there's only a little bit of them, maybe 2,000 or 3,000

feet, that are sticking up out of the snow.

All the rest of that valley--

and you can imagine if you ripped off that glacier, you'd

have this two mile deep valley that would be sitting there,

and you'd be standing there looking up these

two mile high walls.

Here's a valley.

This is a dry valley.

It's in Antarctica.

For fairly complex reasons, the glaciers can't get into

this valley.

They did at one time.

They carved it out, and now they've retreated, and they

have these frozen lakes in the bottom of them.

But here, you have one of those two mile high valleys.

We're flying over it in an airplane and

looking down at it.

And way in the back, way, way in the back, you have the main

Antarctic ice sheet.

Here's the Transantarctic Mountains.

You have these beautiful, layered sedimentary structures

a long time ago.

These were much lower, and then they were raised up over

the last 100 million years or 150 million years.

And now they stand 10,000, 12,000 14,000 feet high.

And then right behind them, you can see that white area

there is the East Antarctic ice sheet flowing

down towards us.

Here's one of those glaciers trying to get through the

Transantarctic Mountains, coming down and flowing right

around through all the rocks, and trying to erode it, and

trying to deepen those valleys.

This is Mount Erebus.

This is a volcano in Antarctica.

You can see the steam rising up out of the top of it.

There's a big lava pool up at the top.

There's lots of people that go up there and study it.

It's 13,000 feet high.

And all the sides of it are ice covered.

It's so cold in Antarctica that even though it's this

huge mountain that is a volcano, and there's this

bubbling lava pool at the top of it, you still have this

mass of ice that's covering the whole thing.

This is Mcmurdo Station in Antarctica.

This is where we do our research.

We fly in here.

You can see it looks kind of like a mining town.

It's a very gritty place.

There are no trees there.

There's no vegetation there.

The soil is all frozen, so you can't dig underneath it to put

all your utility lines, and sewer lines,

and electric lines.

All of those run above.

So it's just a very gritty place.

But you've got to have that to do your research, to have the

airplanes fly around, and so on.

This is not one of the most beautiful places in

the world, but hey.

This is a view looking out from

Mcmurdo, out to the ocean.

The ocean is frozen there.

It's so cold that the ocean simply freezes over.

In some years, it never opens up.

Some years, it just remains frozen all through the summer.

And then the winter comes, and it freezes, and then the ice

just thickens.

And that might happen for two or three years in a row, but

usually that area does open out.

This is one of those distressing photographs.

You got to have fuel to fly airplanes.

These are big fuel tanks.

And then right in the background, you have this

absolutely beautiful shot of Mount Erebus rising

up above the town.

There's some critters that live in Antarctica.

The most famous, of course, are penguins.

I've been down there many times, and I still am

delighted every time I see one, because they're just such

charming little fellows.

And here we are, enjoying watching one of them who is

looking at us as well.

And here's a close up.

This is an Adalie penguin.

They're about a foot and a half or so tall, and just as

curious and fearless as anything.

They have no predators on land, so when they're walking

around on the snow here, they are not bothered if anybody

walks around.

And he's off.

We're not quite sure where he's off to, he or she.

And off into the distance.

This is a penguin rookery.

The penguins are displaying.

They're sitting there sticking their head up.

And those little circles of rocks--

I don't know if you can see them--

those are their nests.

There are no twigs here.

There's no place to put their eggs, except the only way to

protect them is in these little circles of rocks.

And so those rocks become really valuable.

And they'll steal them from each other, and they'll get

into these titanic battles.

When the one steals it, they'll go and fight each

other, and they'll bounce against each other.

And it's quite serious to them.

It's quite amusing us.

This is a view of Erebus stretching up above us, and in

the foreground, you have a hut from one of the early

explorers from 1910.

This is Shackleton's hut.

This is what he lived in through the winter before he

went on his epic journey to try and get to the South Pole.

He didn't succeed, but it was quite a story.

There's a close up his hut and one of my colleagues waiting

to go into it.

This is a glacier.

We're looking at a glacier.

It's coming down towards us.

The front of it is breaking off and falling down, but you

can imagine--

you have to imagine, because we're down below--

they it just heads up and up and up the side of Mount

Erebus for almost 10 miles.

It's a huge glacier.

And here's some people for scale.

So there's these people walking around

at the base of it.

And that's not even all if it.

Just as much as there is above, there's probably three

times as much as that below the ground, below what we're

looking at, below where those people are standing.

The scale of these things is so majestic,

it's hard to imagine.

There's a close up of it.

You can see all the cracks in the face, and where it's going

to break off and the next chunk is going to fall off

towards us.

Here's another picture of a glacier flowing down around

the curve and coming towards us.

And to give you a scale of that glacier, off in the

middle of the screen, there are two huts.

Those are actually fairly big houses.

They'd be a house that you might see

around town over here.

A nice, single story Cape Cod or something like that.

These aren't Cape Cods, but that's about the scale of it.

So there's a couple of huts over there, and they're just

dwarfed by the edge of the glacier, which you can see to

the right of them.

And here's one of these glaciers coming down, and all

destroyed, and cracked, and broken, and crevassed.

And you can't travel over it, which is why it's nice to have

helicopters and airplanes.

And here's another shot of it from the air.

And a close up of all the huge seracs and crevasses.

And another shot.

So, we're going to end this slide show.

Here's one helicopters that we use to fly around.

And I think I might have a couple more pictures here.

Mount Erebus again, and Castle Rock in the foreground.

Even I don't want to end the slide show here, but--

and here's how we move around on the surface with these

snowmobiles in the storm.

This was a pretty bad storm.

You can see the wind blowing across the surface.

And this is what we live in.

Some tents.

That's the tent that we spend two or three months in

Antarctica, sleeping in and doing our work from.

Putting up a bigger tent.

Its cold down there.

You've got to wear your parka, pull up your hood.

So, we've had a little tour of some lovely

places around the planet.

And now, we're going to find out what it all means.

Why are there glaciers?

How do they flow?

How do we know that they came and went?

Why was Yosemite filled with two miles of snow a long time

ago and it isn't today?

Those are the sorts of things that we're going

to be talking about.

What glaciers are.

Erosion by glaciers.

How a glacier makes a hole.

How did it make Lake Superior?

How did a glacier make the finger lakes?

How did a glacier make the 10,000 Lakes of Minnesota?

Those kinds of things.

And then ice ages.

What evidence is there for them and why do they happen?

Why did it get cold and why did it get warm?

A glacier is very simple.

It's a mass of ice and snow that deforms and moves.

By deformation, I mean it simply changes its shape.

It goes from here to there.

It flows across the surface of the landscape.

That's all it is.

And it does so under the force of gravity.

Glaciers flow when snow falls on the surface of the land and

it doesn't melt, so it accumulates.

If it's cold enough that the snowfall doesn't all melt and

disappear, as it does around here, year after year--

every year it snows here, too, but we

don't have any glaciers.

And the reason we don't is all that snow disappears in the

summertime.

But if you go to a place where it's cold year round, that

snow remains.

And then there's more snow that falls on it the following

year, and more snow that falls on it the following year.

And eventually, if the ice gets thick enough, then you

form a glacier.

Where is it cold?

It's cold at the North Pole and it's cold

at the South Pole.

Why?

If you remember from last time, we talked about that.

The sun is shining on the Earth.

At the equator, all the sun's rays just slam straight into

the equator.

And so, all that energy goes right onto the equator.

Up at the poles, that same amount of energy is smeared

across a larger area because of the curvature of the Earth.

And so, it's colder at the polls, warm at the equator.

If it's cold at the poles, then that

snowfall doesn't melt.

If you go up high mountains, we talked

about that last time.

As you go higher and higher up, it gets colder and colder.

And you get to a point where it's so cold that the snow

doesn't melt in the winter time.

That's where we could form a glacier.

Or if it just knows so much and the summers are relatively

short so we can't melt all that snow in the summer time,

then you could form of a glacier.

For example, in the Olympic Mountains, they just get so

much snowfall that even though it's a relatively warm place,

these aren't huge mountains, you can still form a glacier.

You have glaciers at the equator.

You have glaciers on Mount Kilimanjaro in Africa.

And the reason for that is they're high, and they get a

fair amount of snowfall.

If it's cold but you don't get a lot of snowfall, then the

ground just freezes and you get what's called permafrost.

Glaciers move and deform because of gravity.

Gravity is one of the key forces in geology.

I've talked to you about it over and over again, many,

many times.

We talked about it with mass movement last time.

We talked about it with convection cells earlier on.

And here it is.

It's coming at us again.

It's how a glacier moves and deforms.

When you make a pile of anything, the highest spot in

that pile will put more weight at the bottom than the lowest

spot, or a lower spot, on that pile.

So there's more force under the highest spot and less

force under the lowest spot.

And like everybody else, glaciers respond to forcing,

and they want to move from where there's high force to

where there is lower force.

And so, the glacier simply moves off to the left.

I'm going to go to the drawing tablet now, and we're going to

sort of summarize this part of it.

Here's the ocean.

Everything always starts with the ocean.

Here's land.

And we're going to put some trees on land.

And we're going to put some houses on here.

And then, we're going to have it snow.

We get water that evaporates from the ocean.

It gets blown up onto land, and it starts to snow, and

we'll show snowfall as these little X's,

and down they come.

It's snowing on the land.

And if it is cold enough, that snow will make a pile.

And if it's cold enough, and the snow doesn't melt, it'll

make a bigger pile.

And a bigger pile.

And a bigger pile, year after year.

Until the weight of that pile gets large enough that the

glacier wants to start--

I'm going to remove these little snowfall marks, because

it doesn't snow inside a glacier.

It only snows on the outside.

So we'll get rid of some of these things.

So we've got a pile of snow and ice.

And if we make that pile big enough, it will start to flow

off to the sides.

And the reason for it is that the force here is high.

Why?

Because it's got lots and lots of ice sitting on top of it.

Lots of ice.

And the force here is low.

Why?

Not so much ice on top.

And so, the ice flows from where the force is high to

where the force is low.

It flows off to the side like this, and it flows off to the

side like that.

This sketch has gotten a little messy.

I'm going to start it all over again.

We'll put the ocean in.

We'll put the land in.

And we'll put in our glacier.

Now we've built this big pile of ice, and it's flowing off

to the side.

And when it gets to the edge, it will melt.

And the water will simply run back into the ocean.

So why doesn't that pile disappear?

It's flowing off the side.

It's melting.

It's going off.

And the reason it doesn't disappear is it's still

snowing on top.

If you remove material off on the edge, if you add material

up on top, and you flow from the one to the other, you can

keep that glacier at its same size.

If you get it just right, if you melt just the same amount

as you add on top, and you flow that from the one spot to

the other, and you do this continuously over and over

again, that mass of ice isn't going to change its size.

It's going to stay the same year after year.

This is known as the accumulation zone.

That's where snow accumulates.

Simple enough.

This is known as the oblation zone.

Oblation is a fancy word for removal.

To oblate is to remove.

The oblation zone is where you remove ice and snow.

And then, the red line indicates flow from

the one to the other.

We got to finish this picture out with one more thing, which

is evaporation of ocean water followed by transport inland.

And then that ocean water deposits as snowfall.

So do you see that cycle?

You get evaporation in the ocean.

It comes inland.

It falls onto the accumulation zone of the glacier.

It flows down to the oblation zone.

It melts, and it goes back to the ocean.

And if you get it just right, the glacier doesn't change its

size and the ocean doesn't change its size.

And if the temperature is constant, then the system will

come to equilibrium.

It will come to a spot where you are removing just as much

as you're taking in.

And year after year, the glaciers will stay the same.

If you change the temperature, if you start to warm things up

or to cool them down, then that balance will shift.

And that's what we'll talk about.

So this is how a glacier works.

It flows from the accumulation zone to the oblation zone, and

it does so under the force of gravity.

Glaciers always move from the high to low spot.

The high on the surface of the glacier, what

do I mean by that?

Here we have that mass of ice and snow with the rock

underneath it.

The rock is relatively flat.

The glacier will always flow from where it is high

to where it is low.

Not the rock underneath.

The rock underneath, you can see, is pretty flat.

And the analogy is if you take a bowl or plate, and you start

ladling molasses onto it, or you start to ladle pancake

batter onto it.

As you make a pile, and you keep ladling material into the

middle of your plate, what happens?

It isn't if your pile just goes straight up in the sky as

you ladle onto it.

Your molasses just doesn't build up and up and up.

It flows off to the side.

And which way does it flow?

It flows away from where that pile of molasses is high to

where that pile of molasses is low.

That's all that glaciers do.

They flow from where they are high to where they are low.

And in fact, they can even flow--

I'm going to go to a new page.

Now, we're going to have a glacier sitting in a bowl.

The glacier will still flow in that direction even though the

rock underneath slopes up.

Doesn't matter.

Even though that rock slopes up, the glacier will still

flow in this direction because the top of the glacier is

higher there.

Now, there's a limit to this.

If you make the rock really, really steep, then at some

point the glacier won't be able to climb that hill.

But you have to get pretty steep.

You have to get 10 times as steep as the slope at the top

of the glacier for the glacier to change

direction and head down.

So, this is flow of glaciers.

And the balance, the hydrologic balance of

evaporation and accumulation and oblation.

We're going to go back to the presentation, and then we'll

come back to this drawing tablet in a minute.

Whoops.

Glaciers move from where the surface is high to where their

surface is low.

"Their" surface.

Not the surface of the rock that they're riding over, but

their surface themselves.

They can even move uphill, like pancake batter flows up

the sides of a bowl when you pour it into a bowl.

The pancake doesn't all congeal right in the

bottom of the bowl.

It can actually lap up the sides of the bowl and

eventually drip over the edges if you keep pouring more and

more into it.

The North American glaciers came up into Pennsylvania, and

they flowed uphill into the mountains of Pennsylvania

because of this process.

And here we have a cross section of a glacier.

And you have flow of it from the left, in this case, where

it says "Lake Ontario," to the right, where it says

"Pennsylvania." Even though Pennsylvania's higher up than

Lake Ontario--

State College is higher than the bottom of Lake Ontario--

when the ice filled it, the ice actually flowed, quote,

"uphill." The rock heads uphill, but the glacier

itself, the top of it, was sloped from Canada down

towards the US.

The glacier was higher in Canada than it was in the US,

and so it flowed from the high spot of the

glacier to the low spot.

When glaciers flow and deform, they don't

just move as a mass.

They don't just simply have this big fat thing, and the

whole thing moves together.

They actually deform and change their shape.

And that's what's shown in the bottom graph, and I'm going to

go back to the tablet and illustrate that.

We'll use that same picture that we had on the

presentations.

We have the glacier that looks like this.

And the bottom of it looks something like that.

This is Lake Ontario, and this is Pennsylvania.

If you were to drill a hole down through this glacier, a

nice, straight hole--

and people do that all the time.

They do it to sample what's underneath.

They do it to see how thick the glacier is.

They do it to sample the ice itself.

So there's lots of reasons for doing it.

You drill this hole in the ice, and you come back a year

later or two years later, and you measure what that whole

looks like.

It won't be straight anymore.

If you come back in a year, that hole will look

something like that.

The top moved a lot.

And by "lot," I mean 100 feet, 500 feet.

Maybe as much as 1,000 feet after a year, maybe as much as

5,000 feet after a year.

So glaciers don't move enormously fast. In a year,

they flow anywhere from a few feet to a few thousand feet,

but they don't move as fast as you or I

could walk, for example.

So the top has moved a lot.

The bottom has moved a little.

And there is this curve in between where different places

inside of the glacier have moved different amounts.

So the top is always moved the most. If I were to stand here

on the top, I would always move forward, ahead of a

marker at the bottom.

But it isn't a straight line.

It isn't a flat line.

It's this sort of complicated curve.

And this is a big area of research.

People want to know what shape will that hole look like after

a year or after 10 years, because it tells us a lot of a

glacier flow.

But this is a very simple thing, is you have deformation

within the glacier that will change the

shape of the glacier.

Now, in addition to that, you also have sliding.

of the glacier over the base, over the rock.

So glaciers can slide as well.

They might slide a little, they might slide a lot.

It really depends on how much water there is down there.

And you can have water underneath glaciers.

Even though glaciers are ice and snow, and they're very

cold at the top, they can be very warm at the bottom

because of the heat that's coming up

from inside the Earth.

And where is that heat coming from?

You know, radioactive decay.

Remember that.

The inside of the Earth is hot.

That heat is coming up.

It's coming up all around us.

If you look down, you'll see heat come up

through your feet.

You won't be able to measure it.

There isn't a lot of it.

But there's enough that the bottom of the glacier is warm.

So you get sliding of the glacier over the base, and

that's where the erosion goes on.

As a glacier slides along, it rips up the rock, and it

destroys the rock.

It pulls it up and carries it away, and you have erosion of

rock as the glacier slides along.

Let's go back to the PowerPoint.

Glaciers with lots of water at the

bottom are good at eroding.

If you get lots of water down there, then you get this

sliding mechanism.

Instead of simply having deformation within the ice,

you get sliding at the bottom, and then the glacier can pull

up bits of rock and carry them away.

"Plucking" is when the glacier literally

breaks loose small rocks.

You have this big mass of ice.

There'll be some small crack in the rock, and it will break

off or pluck a piece of rock away and

literally carry it off.

"Abrading" is when the glacier drags those small rocks.

So it's plucked one of these small rocks, and

it's carrying it away.

And as it's carrying it away, that rock acts like sandpaper.

It actually scrapes away at the rock that's still

underneath the glacier, and then will break off small bits

of other rock that will also then be carried away and

washed away because of all this water that's down there.

Any water flow under there really helps.

If you've ever done any woodworking, you know that

your sandpaper will get clogged after a while.

You got to clean it off.

This is the same thing.

So as you rub at this, if there's water underneath the

glacier, that water will simply wash away all the loose

material, and then you'll have this clean

surface to rub some more.

The water will wash away the loose material, rub some more,

and the glacier will dig down and down and down, and deeper

into the rock underneath.

Here's a picture illustrating that.

Both you have plucking on the one side, abrasion on the

other side.

If you get one of these sort of sloped rocks underneath

there, then you can have both of those processes going on.

The ice is flowing over these, and it's

plucking and abrading.

And over time, it will carry that material away, and it

will keep digging down deeper and deeper.

And here's an example from the Alps where the glacier would

have flowed from right to left across there, and that face

we're looking at is where all of the rocks were

plucked away and gone.

And the glacier, of course, is gone, but this is what the

bottom of the glacier would have looked

like when it was there.

It's smooth on one side where the glacier came from.

It's rough on the other side.

It's known as a roche moutonnee or rock sheep, that

looks a little like a sheep, sort of a rounded thing with

this fuzzy edge on the side of it.

The abrasion can be seen.

Anywhere there's been glaciers, you get these

smooth, polished surfaces with these long,

straight lines on them.

And the long, straight lines always point in the direction

that the glacier was heading.

And those long, straight lines are simply from those rocks

that it plucked.

As they get dragged along the remaining rock, it just leaves

these long striations and stripes on there.

The net result of doing all this work of abrading, and

plucking, and going on and on, is to build mountains.

When the glacier was there, it was just tearing away at the

mountains, and it leaves these huge

valleys, these deep valleys.

And because glaciers are very wide and broad, the valleys

that they leave behind are very wide

and broad and rounded.

And that's why a classic glaciated landscape, like the

photographs we saw in the beginning of Yosemite, have

this rounding to them.

As you go higher up the valley and you get to the top, you

get to where these glaciers have been chewing away at the

side, and you get these very sharp ridges between them.

And then if two of these glaciers come together or

three of them come together, you get these very sharp-sided

features that are diagnostic of glaciated landscapes.

U-shaped valleys, hanging valleys, rounded bowls, and

sharp ridges and sharp mountains.

These are all the things that you'll see if you go up to

Glacier National Park, for example.

Glaciers are really, really good at eroding.

The finger lakes are there because the glaciers.

The Great Lakes are there because of glaciers.

The 10,000 Lakes of Minnesota are there because of glaciers.

Streams make a very different landscape.

A stream can cut down really sharply where it is, but

streams are generally not a mile wide.

Streams are usually a few 10s of feet wide, or 100 feet

wide, or something like that.

You can go out, you can look at your

stream that's out there.

And they're really good at eroding, too.

And they're really good at cutting down.

But they're not good at cutting down across broad

territories.

They'll cut down right here, and then more rocks will fall

in and they'll cut down, and more rocks will fall in.

And so you get these V-shaped valleys when a stream has been

there for a long time.

Any time you drive around here, and you look at the

shape of these valleys, and they have these really sharp

Vs to them, you know that a stream's been

going through there.

You go to Glacier National Park, you get these nice,

rounded, broad U-shaped valleys.

And here's an example of one of those.

Nice, beautiful, rounded valley,

broad across the bottom.

Now there's a stream running down the middle of it.

And if you leave that situation alone, and you let

that stream run in the middle of it for 50,000 years, that

stream will cut down, and cut down, and it will turn it into

a nice V. But because the glacier's only been gone for a

few thousand years, it's still rounded and U-shaped.

Here's one of those lakes that's left

behind from the glacier.

And here's another fjord.

This is an arm of the ocean that's come in.

The glacier used to flow down through there.

The glacier went away and the ocean came running back in.

More, just beautiful, alpine scenery and glaciers.

Here's one of those really sharp features where the

glacier's eaten away at the side of it and left these

sharp ridges.

This is the Matterhorn.

Very, very famous mountain in Europe on the

French-Swiss border.

And the reason it is three-sided like that--

there's two that you can see and one more on the side, on

the other side--

is there were three glaciers on the three sides that were

eating away at the side of it.

And they kept eating away and making it steeper and steeper,

and where those three came together, you get a horn.

Beautiful place.

We're going to go back to the drawing tablet now and start

to talk about ice ages.

We're back.

We'll do this again.

We'll make our glacier and land.

Our ocean and land.

And we'll put a big old pile of ice and snow.

And if it gets big enough, we call it an ice sheet.

It's no longer a glacier.

It really acts like a glacier, but we call it something

special, just because it's so big, if it covers a continent.

The size of these is enormous.

2,000 miles, 3,000 miles.

All of Canada, all of Antarctica, all of Europe.

Something like that.

That's how big these ice sheets can be.

Let's make this ice sheet go away.

Let's just melt it all.

Let's just take a thermostat knob and

just heat up the planet.

Where is that water going to go?

It's going to go to the ocean, right?

And when it gets to the ocean, it's going to raise sea level.

So remove ice means you raise sea level.

It's as simple as that.

And that has happened over and over again over the last

million years.

It's actually happened all through the history of this

planet, but it has happened very regularly for the last

million years that every 100,000 years, the ice grows,

sea level drops, the ice disappears, sea level rises.

It just happens again and again and again.

And when the planet gets cold, there's enough ice that builds

up that sea level can drop by more than 300 feet.

So there's a lot of ice that gets built up on Canada,

Europe, Antarctica, Greenland, when it gets

cold on this planet.

Why does it get cold?

Why do we have these cycles?

Why is it that every 100,000 years it gets cold, the ice

grows, sea level drops, and then it gets warm, the ice

shrinks, sea level rises?

Back and forth, back and forth.

So why ice ages?

And really, what evidence for ice ages?

Let's look at the evidence first. We'll

go back to the ocean.

Ocean with big ice.

So we've got a big old ice sheet.

All of North America's covered with ice.

Europe is covered with ice.

The Antarctic ice sheet is huge.

Greenland is huge.

This is where the ocean would sit.

It would be at some level.

Sea level of the ocean.

If I had built a house on the beach over there, I could look

out and watch the ocean water lapping up against my house.

This is my ocean level with small ice.

I make the ice sheets go away in North America.

There's no ice in North America.

There's no ice in Greenland.

There's no ice in Europe.

And sea level's going to rise.

What happens is that in this process of making big ice, you

change the chemical composition of the ocean.

So let's take a look at that.

I'm going to back up here a second, and we'll

come back to this.

In the process of making big ice, you change the chemical

composition of the ocean.

And the critters that live in the ocean notice that.

And when they die and their shells fall to the bottom of

the ocean, their shells record that.

So all I have to do is go and find a shell from the time of

big ice, and I'll be able to tell how much

the ocean had dropped.

What happens is--

I'm going to go to the next page over here--

in the process of building big ice, we have

to evaporate water.

You remember that.

You got to take water out of the ocean and dump it on these

big ice sheets.

It turns out that there are two types of oxygen.

Isotopes.

Remember what an isotope was?

Homer Simpson's favorite team, the Isotopes,

the Springfield Topes.

These are when you have the nucleus of an atom has a

slightly different number of neutrons.

It's still oxygen, because that's determined by the

number protons.

But if you have a different number neutrons, it acts the

same way, it's still oxygen, but it just has a slightly

different weight to it.

The lighter isotope evaporates more easily.

So the ratio of light to heavy changes if we build, quote,

"big ice."

So we build this big old ice sheet.

And the way we build it is by preferentially grabbing these

light isotopes and dumping them on the ice sheet.

So we grab all of the light isotopes--

not all of them, but more of them.

Preferentially grab the light isotopes and dump them onto

Antarctica, and Greenland, and Canada.

And so you're left with more of the

heavy ones in the ocean.

And the critters notice that.

The critters notice that in their shells.

Their shells are now built up with a different ratio of

light to heavy isotopes, and we can measure that.

We can find a shell from 30,000 years ago, pull it out,

measure the ratio of light to heavy isotopes,

and tell, oh, look.

The only way this could have happened is if we pulled out

lots and lots of the light isotopes from the ocean.

We can take that same critter from today, pick up its shell,

take it to the lab, measure its ratio, and know that, oh,

there's lots and lots of light isotopes in the ocean today.

So this is the evidence for it.

But why?

Everything in this section of the class, tearing down

mountains, is driven by the heat of the sun.

Remember that.

And glaciers very their size because of

variations in sunlight.

The amount of sun that hits the Earth changes.

Not a lot, but enough over time that you end up with

variations in sunlight.

It gets cooler, it gets warmer.

I'm going to go back to the slides because there's a nicer

picture of it, and I won't be able to sketch those

variations as easily as the more professional

illustration.

We're just going to jump over these.

The heat of the sun drives all of this.

The amount of sunlight varies according to three things.

The shape of the orbit, and I'll show a

picture in a second.

You know how the Earth goes around the sun.

And it does so in an elliptical orbit.

And that ellipse gets more squashed, and more round, and

more squashed, and more round every 100,000 years.

It goes back and forth.

Just wobbling back and forth, like that.

And as it does that wobble, as it does that going from more

squashed to more rounded, the amount of sunlight that hits

the Earth changes.

The amount of tilt to the Earth's axis.

You all know the Earth's axis is tilted.

That changes every 40,000 years.

It goes back and forth, back and forth.

And as it does that, the amount of sunlight that hits

the Earth changes.

And finally, the direction of the Earth's axis slowly spins

around like a top.

And that changes about every 20,000 years.

And as that changes, the amount of sunlight hitting the

Earth changes.

And let's look at that picture.

So on the left, diagram A is showing the orbit of the Earth

spinning around the sun.

And it's more squashed in blue and more rounded in the black,

dashed line.

And it goes between those two shapes every

100,000 years, slowly.

It takes 100,000 years to do it, but it cycles back and

forth, and back and forth

And we can measure this.

Astronomers and physicists are really good at this, and they

can measure the shape of the Earth's orbit, and they can

tell us what it's doing.

Similarly, on panel B there, on the right, we have the

Earth's orbit tilted over by 23 and 1/2 degrees.

And the amount of that tilt changes a little bit every

40,000 years.

It goes from 23 and 1/2, down to 21, back to 23.

And it takes about 40,000 years to do that.

And then finally, you have that precession, which is the

direction of that axis moves around.

Today, the Earth's access points at the North Star.

You know that.

You go out at night, and you can look up, and you can

always tell which way is north because all you got to do is

look for the Pole Star, right?

You all remember how to find the Pole Star?

Find the Big Dipper--

that's that Big Dipper shaped set of stars--

and then follow the end of the Dipper, and you'll go straight

to the Pole Star.

And you always know that the Pole Star is where the axis is

pointing at.

Well, 10,000 years ago, if you had been standing around and

you would try to see which way is north, you wouldn't have

seen the Pole Star because the Earth's axis was going

somewhere else.

So those things happen over time.

And as those three things happen, the amount of sunlight

hitting the Earth changes.

The sunlight in the Earth changes, the temperature

changes, the glaciers grow, and the glaciers shrink.

Milutin Milankovitch predicted this in the 1920s.

It's known as the Milankovitch hypothesis.

He was a Serbian mathematician.

Long before any of these isotopes data were available,

he said this ought to happen.

The amount of sunlight hitting the Earth is changing.

He was an astronomer.

He wasn't a geologist. But he calculated that the amount of

sunlight hitting the Earth was changing, and he said I'll bet

you that that would have had effects on climate.

And he was absolutely correct.

The amount of sunlight in the far northern hemisphere seems

to control the ice ages.

This is a huge topic of research right now.

This is what everybody is really interested in in the

climate community.

Why?

Because we as humans are changing the amount of CO2 in

the atmosphere.

We're changing the composition of the atmosphere.

We're starting to warm the globe because of our

activities.

And so it's no longer these solar orbital cycles that are

controlling temperature.

We as humans are starting to do that.

And so we need to understand the natural cycles much, much

better, so that we can pull out how much it is that humans

are affecting it.

And so this is a huge area, topic of research.

And we'll find out more about climate

change as we go forward.

Changes in sunlight are relatively small, but have

very big effects because of feedbacks.

And you'll find out about feedbacks down the road a

little bit.

So I hope you've enjoyed your tour through some of these

beautiful places on the planet.

You've seen how glaciers are built.

You've seen some of the evidence for glaciers changing

their size and shape over time.

And now here is a good hypothesis for why those

changes take place.

It's still an active area of research, and maybe we'll

change some of the details, but it seems to be a

pretty tight one.

Thank you very much.

We'll see you next time when we talk about coastlines, and

sea shores, and how the ocean can help

to tear down mountains.

For more infomation >> GEOSC10 Unit 7 Lecture: Tearing Down Mountains, glaciers, glaciation & ice ages - Duration: 1:04:25.

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For more infomation >> GEOSC10 Unit 7 Lecture: Tearing Down Mountains, glaciers, glaciation & ice ages - Duration: 1:04:25.

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WE GOT SO DIRTY! ATV Buggy & Turkish Bath VLOG | Jay & Rengin - Duration: 7:01.

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For more infomation >> WE GOT SO DIRTY! ATV Buggy & Turkish Bath VLOG | Jay & Rengin - Duration: 7:01.

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Elodie Gossuin : pour ses enfants, elle marque une pause - Duration: 2:05.

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For more infomation >> Elodie Gossuin : pour ses enfants, elle marque une pause - Duration: 2:05.

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PROMOCJA ROSSMAN -55% I -49% - CO WARTO KUPIĆ. - Duration: 29:18.

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For more infomation >> PROMOCJA ROSSMAN -55% I -49% - CO WARTO KUPIĆ. - Duration: 29:18.

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Elle a effacé une grande partie de ces rides avec cette crème maison en une semaine seulement - Duration: 6:35.

For more infomation >> Elle a effacé une grande partie de ces rides avec cette crème maison en une semaine seulement - Duration: 6:35.

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For more infomation >> Elle a effacé une grande partie de ces rides avec cette crème maison en une semaine seulement - Duration: 6:35.

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Reading My Sisters Mind!!! - Duration: 1:27.

so right here is my sister Kennedy as you might know but I seriously doubt because she's

not famous like me so anyways right here what iḿ going to do is I'm going to go down just

like this and Kennedy can tell me when to stop at any point so come closer with the

camera slash phone so Kennedy tell me when to stop at any point with this doesn't matter

where so just tell me when to stop at any point OK make sure the camera can see everything

OK stop right there if I can grab it I want you to see that card I don't want to see got

the card I'm looking the other way and if you guys really want to know om not cheating

even though there's a mirror right in front of us you see the card got it locked in your

mind go it locked in your mind oh yeah got the camera camera got it was good to watch

you got your card right come closer right here alright in order to guess her card is

going to have to do something pretty crazy which Criss, angel would do point the camera

right here come back watch this watch make sure you can see everything and there cards

watch seven of hearts hahaha was it the seven of hearts

For more infomation >> Reading My Sisters Mind!!! - Duration: 1:27.

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For more infomation >> Reading My Sisters Mind!!! - Duration: 1:27.

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Essayez cette astuce de chaussettes ce soir : tous vos problèmes disparaîtront ! - Duration: 5:28.

For more infomation >> Essayez cette astuce de chaussettes ce soir : tous vos problèmes disparaîtront ! - Duration: 5:28.

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For more infomation >> Essayez cette astuce de chaussettes ce soir : tous vos problèmes disparaîtront ! - Duration: 5:28.

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Est-ce que vous entendez des craquements de mâchoire à chaque fois que vous ouvrez la bouche - Duration: 6:25.

For more infomation >> Est-ce que vous entendez des craquements de mâchoire à chaque fois que vous ouvrez la bouche - Duration: 6:25.

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For more infomation >> Est-ce que vous entendez des craquements de mâchoire à chaque fois que vous ouvrez la bouche - Duration: 6:25.

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Intégrale #MOE du 8/10/17 : Chris Den Hond, Antoine Agoudjian, Wilson Fache, Ghassen Labidi - Duration: 25:12.

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For more infomation >> Intégrale #MOE du 8/10/17 : Chris Den Hond, Antoine Agoudjian, Wilson Fache, Ghassen Labidi - Duration: 25:12.

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ITBlue open up on sex, drugs, and pop'n'roll in hilarious new tell-all book Blue: All Rise - Duration: 8:35.

ITBlue open up on sex, drugs, and pop'n'roll in hilarious new tell-all book Blue: All Rise

EVEN with three platinum albums to their name, the four boys from Blue were thrilled to get a personal invite to Milan from "big fan" Donatella Versace.

The multi-millionaire designer kitted them all out in her flash suits, paid for their plane tickets and booked them front row seats for her catwalk show.

11 Blue are releasing a tell-all book on their sixteen years in pop.

And after the models had sashayed away and the flashbulbs dimmed, Donatella regally approached her special guests — only to ignore their outstretched hands, glare with contempt and turn on her heels.

Antony Costa turned to bandmate Simon Webbe to mutter, "That was a bit rude, I thought she liked us.

The reason for her bizarre behaviour is now revealed in Blue: All Rise, the band's hilarious biography, which is out on October 19.

Antony explains: "It turned out Donatella was furious, thinking she'd been stood up by her favourite British band after laying on plane tickets and all her best clothes.

Apparently, she'd always been a massive fan of Blur.".

PA:PRESS ASSOCIATION 11 Over 16 years, the early Noughties golden boys of pop became the hapless band, known and loved for their daft antics.

The boys are now releasing a tell-all anecdotal book about their time in the industry.

As their anecdote-packed book reveals, this was not the biggest crash-landing for their growing egos.

Duncan James, Lee Ryan, Antony and Simon, put together by manager Daniel Glatman, were the golden boys of pop in the early Noughties.

They were the hapless band, loved as much for their daft antics as their music — which saw them rack up 16million record sales, two Brit awards and three No1 singles.

Fame also gave them access to a world of private jets, serious amounts of drugs and sex on tap.

11 The boys are documenting their time in show business with a hilarious anecdotal book, Blue: All Rise.

GETTY - CONTRIBUTOR 11 The boys have experienced their fair share of scandals, from sex to drugs.

Lee, 34, who was named The Sun's Bizarre column Shagger of the Year two years running, said of his past: "I dived in that pot, swam around in it and took a big, happy bite.

Even Duncan, 39, who later came out as gay, admitted: "I had more than my share of beautiful women on my arm back in those days.

They had staff to buy their underpants, pay for their drinks and Lee even had a Porsche with L-plates on his drive, bought before he'd passed his driving test.

But it was the drugs that tipped Duncan and Lee over the edge.

11 Lee Ryan and Duncan James swear at paparazzi after a Cannes Film Festival yacht party in 2003.

Duncan who "was stoned — day in, day out", was once given chocolate laced with magic mushrooms by a crew member on one of his birthdays.

He said: "He kept saying, 'Just one square.' Well, within minutes I'd had two squares and Lee had eaten the rest.

Trying desperately to find a spot where we wouldn't be recognised, we ended up on a roundabout in the middle of a main road.

"It felt like days we were sitting on that roundabout, although it was probably 20 minutes.

In their heyday Blue met Michael Jackson, performed with Stevie Wonder and were pals with Elton John.

Though they weren't always aware of just how famous people around them were.

On watching a "sweet, smiley fellow" speak at a concert with Elton in South Africa, Lee whispered to the person next to him, "Who is that?".

"Archbishop Desmond Tutu," came the reply.

GETTY - CONTRIBUTOR 11 In their heyday Blue met Michael Jackson, performed with Stevie Wonder and were pals with Elton John.

Nor did Lee always gel with the big names he encountered.

Once while drunk at a hotel in Newcastle he let off a fire extinguisher and aimed it at other guests.

He said: "I sprayed them all from the fourth floor.

Down below, Alan Shearer got soaked.

Dale Winton was running for cover.".

And during a charity event at No10 he played a prank on the then PM's wife Cherie Blair, who accepted his offer of chewing gum.

He said: "I hadn't mentioned it was trick chewing gum.

Half an hour later she came back, her mouth, her lips, even her teeth, all bright blue.".

REX FEATURES 11 The boys performed at a charity event at Number 10.

As their fame and arrogance grew Lee insisted on having his own dressing room, then chose to go solo — after a tarot card reading.

Blue split up in 2004, but going solo brought its own stresses and humiliations for the four.

Duncan who got a job hosting the National Lottery Live on BBC1, recalled: "What follows is arguably the most embarrassing incident of my life.

I farted and, somehow, was unable to stop following through.

"So I stood there, a boyband star turned prime-time TV entertainer gazing out at the country's biggest audience, eating their dinners, and I'm having a panic attack, secretly gay, taking anti-depressants to cope with stress and I have just soiled my underpants, live on air.

11 Lee went into the CBB house in 2014, where he tried to bed models Casey Batchelor and Jasmine Waltz.

Life was getting tough for them all but somehow the lads, still looked on with affection, all muddled through.

Despite a spell in theatre and appearing on I'm A Celebrity .

 Get Me Out Of Here! in 2005, Antony was unable to pay his mounting bills.

His dream home in Hertfordshire was eventually repossessed because he couldn't afford his £7,000-a-month mortgage and the tax man hit him with a £600,000 demand.

Antony, 36, said: "So I moved to my new home, also known as my Uncle's George's sofa.

The truth was I couldn't buy a bus ticket.

Everything was gone.".

REX FEATURES 11 His love rat behaviour was met with public backlash which led to him drowning his sorrows.

Similarly, Lee was left skint by a bad record deal and a tax avoidance scheme gone wrong.

He said: "I was sleeping in Duncan's attic in Ealing.

By the time the offer of Celebrity Big Brother arrived, I was up in the attic like Quasimodo, worrying about the future and drowning all my sorrows in a serious amount of alcohol.".

On CBB in 2014 he tried to bed models Casey Batchelor and Jasmine Waltz.

POP STAR TO SOAP STAR 10 pop stars who have tried their hand at acting in your favourite soaps.

But the public backlash over his love rat performance led to him drowning his sorrows, culminating in his arrest for drink driving and suspected possession of cocaine.

He unleashed a foul-mouthed volley of abuse at the arresting officers, shouting: "F*** off, f*** you, you f****** c***, f*** off!".

CHRIS CLARKE 11 After being arrested, Lee cleaned up his act during a stint in rehab.

The Sun exclusively revealed that hours after being detained Lee threw a tantrum and peed "all over" his cell, to the disgust of cops.

He says in the book: "The truth is, I was hoping they would beat me up so I may well have been taunting them to fight me.

Lee decided to clean up his act and went to rehab.

But by now the Blue boys were something of a joke.

He recalled: "I was at an airport with the boys.

I was trying to hide it with big clothes, but a woman came up to me just to say 'You're a lot fatter in real life, aren't you?'".

For more infomation >> ITBlue open up on sex, drugs, and pop'n'roll in hilarious new tell-all book Blue: All Rise - Duration: 8:35.

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For more infomation >> ITBlue open up on sex, drugs, and pop'n'roll in hilarious new tell-all book Blue: All Rise - Duration: 8:35.

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Rise of Digital Gaming

For more infomation >> Rise of Digital Gaming

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[KOR/ENG SUB] [M/V] ZENE THE ZILLA - 호잇 HOiiiT ☄ ft. RiiiSKY - Duration: 3:06.

SLRO, let's play that shit

We make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

We make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

ya we make a circle: compass (circle)

ya we chop and share: pork cutlet

I got XXX but I ain't no Tentacion

chain on my neck and it's too shiny (bling!)

I'm sorry to Benjamin, Imma broke boy (I'm sorry to)

gonna high with 퇴계 이황 (go to far) *퇴계 이황 is a great man drawn on a ₩1,000 bill

SAMSUNG is noisy but I don't care (Brrr Brrr Brrr Brrr)

RiiiSKY is a Dooly and Imma Piccolo

Special Beam Cannon, pi-yoong

my money is stock like 키움 *키움 is a one of the Korean stocks

if u still don't know this, u're a jerk

without a budget, my reply is 'ㄴ' *the meaning of 'ㄴ' is 'No'

We make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

we make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

hoit, roll-up a ₩1,000 bill, ya, hoit, drink water, ya

hoit, whole body is chill out, ya, hoit, witchcraft, ya

hoit, rap like automatic, hoit I'll reach the cloud

hoit, zilla is LAF, too, add more helium to the balloon

woo ya I rockin Triple A

woo ya your style is bad

hoit hoit thought it was Dooly, but it's Zilla

ya chain is brighter on my neck

ya they don't move like a beeswax, ya fuck

We make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

We make a circle and roll-up a joint

then we use psychic powers like a baby dino Dooly, "hoit"

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

Hoit hoit hoit hoit hoit hoit hoit hoit!

For more infomation >> [KOR/ENG SUB] [M/V] ZENE THE ZILLA - 호잇 HOiiiT ☄ ft. RiiiSKY - Duration: 3:06.

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Mercedes-Benz M-Klasse 280 CDI Edition 10 - Duration: 0:54.

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BMW 5 Serie Touring 520I M SPORT PAKKET Leer Navi Keyless entry. - Duration: 0:59.

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Stephanie's Gastric Sleeve journey - Week 1 - Duration: 4:58.

Hey everybody so today is officially one week since my operation. My gastric sleeve

and I've been doing really well actually I was in hospital for two days.

Managed to walk from HDU down to my room which was like, I was so proud of myself.

Had to physios at the side of me and a nurse be admin with a wheelchair just in

case. But no, I did it. Walked all the way down there so I was

really happy with myself. Came home and not gonna lie felt kind of felt all

the bumps in the road on the way home but that was like day two past my

operation. Since then I've had no pain. None whatsoever

I spoke to my bariatric nurse on day three and she asked me if everything was

going okay and I said yeah and got no pain. Actually asked her at one point 'You sure he's

done it' but yeah he's definitely done it.

Food-wise, I'm still on a liquid diet at

the minute. For my breakfast I have about 200 mils of fresh orange and an Actimel.

and a cup of peppermint tea. Peppermint tea helps with any wind that

you've got and stuff like that. For my lunch I may have a protein shake

then from a tea I'm having soup. So I've had things like tomato soup or cream of

mushroom soup and I've sieved it to get all the bits out and added some water to it

to like water it down a bit. So I've had about 200 mils of that.

I eat really slowly only because I don't want to get

anything stuck or anything like that. I'm eating about..

In the beginning it was about 6 teaspoons but now it's about

about 8 or 10, something like that. So I make sure it lasts me about half an hour, eat

really really slowly. I'm still getting my water in. I shouldn't, I'm not drinking

as much as a should. I'm drinking about five hundred, six, seven hundred

mils between them, in the day so I'm concentrating on trying to

get me water up as well. I have been on the scales and - sorry if you can see

the tails of the cat. I have been on the scales.

I've lost 11 pounds in a week, which I'm shocked. I'm so shocked. I've started to

get a bit obsessed with them, so I've put them away

I weighed myself yesterday I had lost 11 pounds so I put them away I'm not

going to weigh myself now until a month probably. You watch, I'll update you in

another week and I'll have been on the scales again but that's me intention at

the minute. I'm going to put them away because you do become obsessed with them

What else can I tell you?

Head hunger. It's so real!

I never thought it was real before - it really is. I was laying in bed the other day

and all I could think was egg wraps.

Why? It's really strange like, just like

an egg like a pancake and that sort of could think of and I'm thinking to myself

'Shall I have it? Shall have it?' and then I had to have a strong word with myself I

was like 'No I have not gone through this process for nothing. Stick to the

guidelines.' So I had a strong word with myself that I went to sleep. Felt tons

better the next day and came down but, egg wraps? It wasn't even anything like

I don't know like chocolate or something like that, it just I don't know where egg wraps

came from! So yeah head hunger is real. Didn't think I would suffer

with it but yeah it is real so be prepared for

it if you go through this surgery. Just tell yourself it's really not worth it

you know and it's a positive thing that you going through. So yeah that was about

it really. Okay so that's me for today, okay. I will see you soon. Thank you for

following me and seeing what I'm going through. So I will update you soon. Thanks, bye!

For more infomation >> Stephanie's Gastric Sleeve journey - Week 1 - Duration: 4:58.

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Dragons Eye Nail Design - Acrylic & Gel - Game of Thrones Nails - Duration: 17:54.

For more infomation >> Dragons Eye Nail Design - Acrylic & Gel - Game of Thrones Nails - Duration: 17:54.

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Maggie Lindemann - Pretty Girl (Lyrics / Lyric video) - Duration: 3:39.

Maggie Lindemann - Pretty Girl

I can swear, I can joke

I say what's on my mind

If I drink, if I smoke

I keep up with the guys

And you see me holding up my middle f**ger to the world

F**k your r****ns and your p**rls

'Cause I'm not just a pretty girl

I'm more than just a picture

I'm a daughter and a sister

Sometimes it's hard for me to show

That I'm more than just a rumor

Or a song on your computer

There's more to me than people know

Some days I'm broke, some days I'm rich

Some days I'm nice, some days I can be a b**ch

Some days I'm strong, some days I quit

I don't let it show, but I've been through some sh*t

I can swear, I can joke

I say what's on my mind

If I drink, if I smoke

I keep up with the guys

And you see me holding up my middle f**ger to the world

F**k your r****ns and your p**rls

'Cause I'm not just a pretty girl

I'm more than just a number

I'm a hater, I'm a lover

Sometimes it's hard for me to show

That I'm more than just a title

Or a comment going viral

There's more to me than people know

Some days I'm broke, some days I'm rich

Some days I'm nice, some days I can be a b**ch

Some days I'm strong, some days I quit

I don't let it show, but I've been through some sh*t

I can swear, I can joke

I say what's on my mind

If I drink, if I smoke

I keep up with the guys

And you see me holding up my middle f**ger to the world

F**k your r****ns and your p**rls

'Cause I'm not just a pretty girl

I'm not just a pretty girl, yeah

I'm not just a pretty girl

No I'm not just a pretty girl

I can swear, I can joke

I say what's on my mind

If I drink, if I smoke

I keep up with the guys

And you see me holding up my middle f**ger to the world

F**k your r****ns and your p**rls

'Cause I'm not just a pretty girl

I'm not just a pretty girl, yeah

I'm not just a pretty girl

I'm not just a pretty girl

I'm not just a pretty girl

For more infomation >> Maggie Lindemann - Pretty Girl (Lyrics / Lyric video) - Duration: 3:39.

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How To Get Rid of Anger (Or Any Negative Feelings) - Massage Monday #363 - Duration: 6:56.

Hi everyone, I am Yasuko and it's time for Massage Monday.

This week I am going to show you a technique that I use to get rid of my anger or any negative

feelings.

Luckily I don't get angry that often but since I learned this technique 6 years ago it has

saved my life several times when I was furious about something.

Now I can't even remember what I was furious about.

This technique is called Natural Bio-Destressing or NBD.

It also says modified EFT process.

EFT stands for Emotional Freedom Technique.

The instruction is on hblu.org and full credit to Dr. Judith Swack.

I'll include the link below.

I'm going to go over the technique step by step as it's written on this instruction sheet.

Step A: Concentrate on a specific feeling and notice its location in your body.

On a scale of 1-10+ rate how severe is the feeling.

I would write the feeling and rating on a sheet of paper for a reference later.

I'm going to use "anger" and level 9 for this example but it can be any negative feelings

you have.

And feel where the anger is stored in your body.

For me, I usually feel the uneasy feeling in my chest or solar plexus area.

Step B: Karate Chop Point #15 is on the side of the hand below pinky.

While you tap the Karate Chop Point against the other hand, say three times "I totally

and completely accept myself even though I have this anger.

I totally and completely accept myself even though I have this anger.

I totally and completely accept myself even though I have this anger."

Step C: Stimulate nerve endings 1-15 with fingertips for a few seconds.

If you feel a lot of energy moving, or the scene is changing, stay on that point till

the activity plateaus.

If nothing happens on a specific point, move to the next one.

Use your intuition about how long to stay on a point.

The latest instruction simply says tap the entire eye socket for points 1-4 but to be

more specific the first point is bridge of nose by eyebrow.

The second point is outside edge of eyebrow.

The third point is side of the eye.

The fourth point is under the eye.

The fifth point is under nose.

The sixth point is under mouth.

The seventh point is under collar bone.

The eighth point is the sore spot on chest.

Just rub gently on this point.

The ninth point is the ouchy spot under arm on rib.

The tenth point is bottom rib below nipple.

The eleventh point is side of thumb.

The twelfth point is side of index finger.

The thirteenth point is side of middle finger.

The fourteenth point is side of little finger.

The fifteenth point is karate chop spot.

Step D:

Do the 9 Gamut.

The Gamut Point is on the back of the hand between the pinky and ring finger bones.

Tap the Gamut Point #16 on back of hand through the following steps:

1.

Close eyes 2.

Open eyes 3.

Look down to one side 4.

The other side 5.

Roll eyes in one direction 6.

In the other direction 7.

Hum a tune.

The easy one is happy birthday song.

Who cares if it's out of tune.

8.

Count to 40 by 2's. 2, 4, 6, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36,

38, 40 9.

Hum a tune

Step E: Repeat Step C. Tap around the eye socket.

Under nose.

Under mouth.

Under collarbone.

Rub the sore spot on chest.

Ouchy spot under arm on rib.

Bottom rib below nipple.

Side of thumb.

Side of index finger.

Side of middle finger.

Side of little finger.

Karate chop.

Step F: After every round, recheck how severe is the feeling.

It should be gone altogether or very low on the scale.

This is so true because usually, my anger level is down to 1 if not 0.

It's amazing.

Think about what you learned and what feels or seems different about the situation to

you now.

If the level of that emotion still seems high, notice what else about the situation makes

you feel frightened, angry, sad, etc.

Focus on that subject and repeat the process.

Any negative feeling is a valid emotion but I believe carrying it with you all the time

is detrimental to your health.

I also believe that if you can better control your negative feelings it will help you to

be healthier physically and deal with the problem in a more civil way for a healthier

relationship.

I hope this is helpful for you as much as it is helpful for me.

Thanks for watching.

I'll see you back next week.

Make it a great week.

Feel free to comment below and please don't forget to subscribe.

For more infomation >> How To Get Rid of Anger (Or Any Negative Feelings) - Massage Monday #363 - Duration: 6:56.

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Essentials 6th Edition - Donut Hose Roll - Duration: 3:16.

This skill video will show you two methods a firefighter can

use to make a donut hose roll and the method for making a twin

donut roll.

Lay the section of hose flat and in a straight line.

Start the roll from a point 5 or 6 feet (1.5 to 2 meters) off of

center toward the end with the male coupling.

Roll the hose toward the female end, leaving sufficient space at

the center loop to insert a hand for carrying.

Extend the short length of hose at the female end over the male

threads to protect them.

Grasp either coupling end, and carry it to the opposite end.

The looped section should lie flat, straight, and without twists.

Face the coupling ends.

Start the roll on the male coupling side about 2 1/2 feet

(a little less than 1 meter) from the bend. If you are rollig

1 1/2-inch or 38 mm hose, start the roll about 1 1/2 feet

(1/2 meter) from the bend.

Roll the hose toward the male coupling.

Pull the female side back a short distance to relieve the

tension if the hose behind the roll becomes tight during the roll.

Lay the roll flat on the ground as the roll approaches the male coupling.

Draw the female coupling end around the male coupling to

complete the roll.

Lay a section of hose flat, without twisting it, to form two

parallel lines from the loop end to the couplings. When finished,

the couplings should be next to each other.

Start the roll by folding the loop end over and upon the two

hose lengths.

Roll both lengths simultaneously toward the coupling ends to form

a twin roll with a decreased diameter.

Insert a strap through the center of the roll for carrying purposes.

For more infomation >> Essentials 6th Edition - Donut Hose Roll - Duration: 3:16.

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Reading My Sisters Mind!!! - Duration: 1:27.

so right here is my sister Kennedy as you might know but I seriously doubt because she's

not famous like me so anyways right here what iḿ going to do is I'm going to go down just

like this and Kennedy can tell me when to stop at any point so come closer with the

camera slash phone so Kennedy tell me when to stop at any point with this doesn't matter

where so just tell me when to stop at any point OK make sure the camera can see everything

OK stop right there if I can grab it I want you to see that card I don't want to see got

the card I'm looking the other way and if you guys really want to know om not cheating

even though there's a mirror right in front of us you see the card got it locked in your

mind go it locked in your mind oh yeah got the camera camera got it was good to watch

you got your card right come closer right here alright in order to guess her card is

going to have to do something pretty crazy which Criss, angel would do point the camera

right here come back watch this watch make sure you can see everything and there cards

watch seven of hearts hahaha was it the seven of hearts

For more infomation >> Reading My Sisters Mind!!! - Duration: 1:27.

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GOLDEN HOUR VIDEOGRAPHY - How To Capture Stunning Footage During Magic Hour - Duration: 4:46.

For more infomation >> GOLDEN HOUR VIDEOGRAPHY - How To Capture Stunning Footage During Magic Hour - Duration: 4:46.

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FALL COOKIES SET MADE W/ JUST 1 COOKIE CUTTER! - SET DI BISCOTTI AUTUNNALI CON 1 SOLO CUTTER-SUB ITA - Duration: 3:30.

For more infomation >> FALL COOKIES SET MADE W/ JUST 1 COOKIE CUTTER! - SET DI BISCOTTI AUTUNNALI CON 1 SOLO CUTTER-SUB ITA - Duration: 3:30.

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SsangYong Rexton W - Duration: 1:08.

For more infomation >> SsangYong Rexton W - Duration: 1:08.

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SsangYong Rexton W - Duration: 1:07.

For more infomation >> SsangYong Rexton W - Duration: 1:07.

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Ma grand-mère m'a appris ce remède pour éliminer les varices ou les veines. - Duration: 5:46.

For more infomation >> Ma grand-mère m'a appris ce remède pour éliminer les varices ou les veines. - Duration: 5:46.

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50cent & 2Pac ft.Eminem - Best Gym Hip Hop Workout 2017 - Svet Fit Music™ - Duration: 41:15.

Svet Fit Music

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