An Giang info: Youtube daily report Oct 25 2018

Sometimes, in the history of engineering, physicists make their way into the story.

Consider, for example: John Bardeen.

You might not have heard of him, but Bardeen is the only person in all of history to win the Nobel Prize in Physics twice.

He shared the prize once in 1956 and again in 1972.

Both times, he was involved in discoveries that made clever use of materials for electrical engineering.

The first prize was for his work on the development of the transistor,

and the second was for describing a way to allow certain materials to conduct electricity with no resistance, called superconductivity.

Superconductivity is tricky to achieve, but it might allow us transport electricity with nearly perfect efficiency in the future.

Transistors, meanwhile, are electrical components that have already revolutionized society.

They form the basis of all modern computing.

And at their heart are semiconductors.

[Theme Music]

As the name implies, semiconductors are in between materials that conduct electricity and materials that are totally non-conducting.

A classic example would be silicon, which is so commonly used as a semiconductor that Silicon Valley was named after it.

As we'll see, semiconductors have been transforming the face of technology for decades.

On its own, silicon doesn't conduct electricity very well.

It has no free charges, like free electrons, in it to carry a current.

But you can alter the structure of silicon on an atomic level to change that.

First, you replace a few of the atoms in a layer of silicon with phosphorus atoms.

Those phosphorus atoms each carry one more electron than a silicon atom would have,

which introduces more negatively-charged electrons into the material.

Those extra electrons aren't bound to any of the silicon atoms and are therefore free, negative charges.

For that reason, we call this an N-type semiconductor – "N" for negative.

On the other hand, if you switch some of the silicon atoms with boron atoms, it creates a relative lack of electrons in the material.

The boron atom has one less outer electron than the silicon atom it's replacing.

The places where those electrons are absent are called holes.

The lack of negative charge creates regions of free positive charge, so we call this arrangement a P-type semiconductor.

Holes can move around and be transported in a material, just like the absence of water in a sealed container – a level, for example –

forms a bubble whose location you can keep track of.

You can think of holes as effectively "positive charges" that can be filled by the presence of an electron.

When that happens, the space left behind by that electron creates a new hole.

Now, on their own, those P- and N-type semiconductors aren't all that exciting.

Unlike pure silicon, which is an insulator, they'll be weakly conducting because they now have free charges moving around.

But things get really interesting when you put them together – like if you have both P and N type conductors sandwiched together in a circuit.

Normally in electrical circuits, the electrons flow from the negative terminal to the positive.

Remember that the current is defined to flow in the opposite direction, so it travels from positive to negative.

One thing you can do by sandwiching both types of semiconductors is to stop the current in a circuit from flowing altogether.

If you put the N-type semiconductor on the positive terminal side, and the P-type semiconductor on the negative terminal side, together they stop the current,

even though on their own, they'd each be weakly conductive.

It works because each semiconductor's extra charges are the opposite of the terminal it's next to.

All the negatively charged electrons in the N type semiconductor are drawn towards the positive terminal of the circuit.

And all the holes in the P type semiconductor are drawn to the negative terminal of the cell.

Since the effective charges are being pulled away from the area between the semiconductors,

you end up with a gap between the two plates where charge can't be transported across, called a depleted region.

Since there are no free charges to transport a current across that gap, an electrical current can't pass through it.

So if you arrange P- and N-type semiconductors this way around, you can stop a flow of current.

But, if you arrange them the other way around, with the P-type near the positive terminal and the N-type near the negative terminal,

now the electrons and the holes are drawn towards each other.

In this case, the extra electrons from the N-type fill the holes in the P-type, and the new holes spring up where the electrons used to be.

This kind of cascade can happen throughout the entire circuit, again and again until you have electrons flowing much as before.

In other words, in this arrangement the current can now travel through where the N and P layers meet.

The purpose of N and P type semiconductors put together is the simplest form of what we call a diode, which is basically a one-way enforcer of electrical current.

It allows current to flow in one direction, but stops it from flowing in the opposite direction.

It just depends on how you insert the semiconductors relative to the terminals of your voltage supply –

whether that's a battery, an electrical outlet, or something else.

Being able to control the flow of a current can be really useful.

For example, you might have an alternating current, or AC signal flowing through a circuit,

where the direction of the current changes back and forth.

But many electrical components need a direct current, or DC, with a flow of current in only one direction.

In the right arrangement, diodes can be used to convert a wavy, AC current into nice simple DC current.

The flow of charge in the DC part of the current always goes the same way,

and the positive and negative ends of the output remain the same, like a battery.

So, diodes are handy for controlling the direction of a current.

But you can do even more if you put three semiconductors together in a sandwich.

You have two options for this type of sandwich: P-N-P, or N-P-N.

In both cases, the middle layer effectively creates a diode with each of the outer layers,

with each diode allowing current to flow in the opposite direction.

This may not sound terribly useful, because together, the three semiconductor layers are restricting flow both ways.

Unless, that is, you add a second current.

Let's say you have an N-P-N sandwich connected to a battery.

The current can't flow through it, because you have a positive terminal hooked up to an N layer.

The electrons in that layer will be attracted to the positive terminal, while the holes in the P layer are attracted to the other N layer.

So you end up with a depleted region between them, and the current is going nowhere.

But here's the incredible thing.

If you apply just a small current that flows from the middle plate to the N layer on the same side as the first battery's negative terminal,

the electrons moving into the P layer fill the depleted region between it and the other N layer.

So that gap the electrons couldn't cross before disappears, and the original larger current is free to flow across the whole sandwich.

In other words, you've created an electrical switch – a sort of gateway – that requires just a tiny current to control the flow of a larger current.

And it works for P-N-P arrangements, too.

This arrangement of semiconductors, that might seem so functionless at first, is a transistor.

And the fact that it allows you to control how current flows in a circuit makes it one of the most important components of the electronic age.

Since transistors use smaller currents to influence the on or off states of the larger currents flowing through the wire,

they form the basis of the binary system of 1s and 0s that computers rely on.

All the marvels of computers and computer chips, including your ability to watch this video,

depend on semiconductors and the transistors we make from them!

So, that's how materials like semiconductors can direct the flow of electrical power.

But semiconductors can be used to generate electrical currents, too!

And that ability has allowed us to take advantage of an incredibly useful source of clean, renewable energy.

To see how this works, let's go back to a simpler diode set up, with a P-type and N-type semiconductor put together.

This time, you don't connect the two sides to a power supply.

Instead, you attach it to a device you want to power, like a small electrical motor.

Remember, the N-type will have an abundance of free negative charges and the P-type will have an abundance of free holes.

There's no voltage being applied across the junction between the two types, so the electrons of the N-type will naturally fill the holes in the P-type.

This creates a depleted region at the interface between the two semiconductors.

There are no free charges because the electrons become weakly bound to atoms when they fill the holes that were in the P-type.

The N-type has a small region with some positively charged atoms from the absence of those electrons,

while the P-type has a small region with some negative charge from those extra electrons it picked up.

These opposite charges set up an electric field across the gap.

If there were any free electrons in this field, they'd be driven away from the negatively charged region in the P- type, towards the positive region set up in the N-type.

So that's our setup.

Now, how do you get energy from this?

On its own, it's not going to do an awful lot.

But electrons in a material can respond to light.

When light hits them, the electrons interact with the light and can even absorb some of its energy.

If the bound electrons in the P-type absorb energy from the light shining on the material,

they can get just enough energy to stop being bound to atoms and become free charges!

Remember that the charges across the gap set up an electric field.

Electric fields apply a force to free electric charges, so an electron freed from the extra energy it got from the light is now driven by that electric field into the N-type.

That leaves a hole in the P-type waiting to be filled,

but the electrons can't flow back against the electric field; the forces push it the other way around.

Instead, the N-type's extra electron will flow all the way around the circuit, through the device, delivering electrical power.

That's a solar cell!

With the right arrangement of semiconductors, it allows you to generate electricity from light.

These kinds of cells are exactly what form the basis of solar panels.

With semiconductors, and silicon in particular, you can create electrical power from sunlight.

And I think you'll agree, that's a pretty bright idea.

In this episode, we looked at silicon, and how introducing small amounts of other elements

allow silicon layers to conduct currents, turning them into semiconductors.

We saw how putting two different types – N and P semiconductors – together gave us electrical components like diodes, transistors, and solar cells.

Next on our tour of materials engineering, we'll be going super tiny as we explore the world of nanomaterials.

Crash Course Engineering is produced in association with PBS Digital Studios.

If you want to keep exploring the world around us, check out Reactions: a show that uncovers

the chemistry all around us, and answers the burning questions you didn't know were chemical

- from whether gum really stays in your stomach to why bacon smells so good.

Check out Reactions and subscribe at the link below.

Crash Course is a Complexly production and this episode was filmed in the Doctor Cheryl C. Kinney Studio with the help of these wonderful people.

And our amazing graphics team is Thought Cafe.

For more infomation >> Silicon, Semiconductors, & Solar Cells: Crash Course Engineering #22 - Duration: 10:39.

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Toyota Yaris 1.5 Hybrid Aspiration | Actie! Gratis TomTom Start 42 West-Europa | Climate Control | P - Duration: 1:08.

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Colleen?s Cookies is a quaint café and bakery between Clayton and U City - Duration: 1:24.

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Mercedes-Benz S-Klasse S 350 BlueTEC Prestige Plus Automaat - Duration: 1:12.

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Melissa (TV size ver.) | S 93.80% [322/33/0/0] [Gero's Insane 4.23★] - Duration: 1:49.

For more infomation >> Melissa (TV size ver.) | S 93.80% [322/33/0/0] [Gero's Insane 4.23★] - Duration: 1:49.

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#08 - INDO PRO MÉXICO COM UM MALUCO - GAMEPLAY LEGENDADO EM PORTUGUÊS PT-BR [RDR] - Duration: 47:41.

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Tennoji Zoo | Osaka Japan * Dani Travel TV - Duration: 6:08.

Tennoji Zoo is located at Tennoji Park in Osaka.

The admission fee for Tennoji Zoo is 500 yen for adults this is around 3.82 euros or 4.33 dollars.

The Tennoji Zoo opened in January 1915 as the third zoo in Japan.

The zoo's approximately 11 hectares house 1,000 animals of 200 different types.

Including everything from lions and chimpanzees, to the always-popular koalas, penguins, birds and many more.

Tennoji Zoo serves as a kind of ecological exhibition, introducing the public to the way these animals live.

It's very beautiful place where you can admire the nature and animals.

Subscribe to my channel and don't forget to activate the bell icon.

From Tennoji Zoo you can go to explore the rest of Tennoji Park.

More about Tennoji Park you can find in previous video in the top right corner of the screen.

More information and location you can find in the description.

If you have any questions, you can write it in the comments section.

Subscribe to my channel and don't forget to activate the bell icon.

Thumb up if you like the video.

Thank you for watching and till the next time.

For more infomation >> Tennoji Zoo | Osaka Japan * Dani Travel TV - Duration: 6:08.

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05. Trap Time - Sir D€C€N Ft. JovenBaltassar (REC💣PILACION) lyrics en subs - Duration: 5:10.

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Episode 45 La légende du héros chasseur d'aigles (2017) Série TV Chinoise - Duration: 43:14.

For more infomation >> Episode 45 La légende du héros chasseur d'aigles (2017) Série TV Chinoise - Duration: 43:14.

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✅ Corona: nuovi retroscena sulla storia d'amore con Silvia e Belen - Duration: 2:34.

Fabrizio Corona si svela prima del GF Vip: nuova verità sulla storia d'amore con Silvia Provvedi In questa speciale puntata del Grande Fratello Vip in onda questa sera, Giovedì 25 Ottobre 2018, l'ospite d'onore non è altri che Fabrizio Corona

Dopo le polemiche nate in queste ultime settimane, l'ex re dei paparazzi è pronto ad entrare nella Casa più spiata d'Italia

L'ex fiamma di Silvia Provvedi ha intenzione di chiedere scusa per le parole dette nel corso dell'intervista rilasciata a Silvia Toffanin nello studio di Verissimo

Non è assolutamente vero che Corona non ha mai amato la sorella mora de Le Donatella, così come non l'ha mai usata per arrivare a qualche suo preciso scopo

Prima della diretta del reality-show condotto da Ilary Blasi, Fabrizio ha rilasciato alcune interessantissime dichiarazione al portale web Iloft

it. Silvia Provvedi e Fabrizio: Corona rivela tutta la verità sulla rottura Fabrizio Corona ha rivelato che non avrebbe mai pensato di prendere parte al GF Vip, eppure oggi sarà in studio

Dopo tutte le cose che sono state dette sul suo conto in queste settimane, il diretto interessato ha deciso di avvalersi del diritto di replica e di entrare in Casa per avere un confronto diretto con Silvia

Riguardo al periodo trascorso in carcere e del suo rapporto con la Provvedi, l'ex te dei paparazzi svela: "Silvia era il mio unico obiettivo di vita ed era anche il mio unico riferimento di vita, non avevo nessun'altro

Avevo solo lei." Corona parla di Belen: il retroscena inaspettato Oggi, a mente fredda, Fabrizio si rende conto che la colpa della fine della storia d'amore con Silvia è anche un po' sua

"Io ho sbagliato. Mi sono dedicato solo a me stesso e al mio lavoro. Non l'ho lasciata, l'ho persa in quel momento, che è diverso

Non l'ho usata neanche da un punto di vista sentimentale. E Non l'ho utilizzata." Nonostante si fosse prefissato di non andare al Grande Fratello Vip, l'uomo ha cambiato idea per tutte le cose che ha sentito dire sulla sua persona, anche da parte della stessa conduttrice

Tra una dichiarazione e l'altra, Corona ha anche rivelato a quando risale l'ultima volta che ha pianto

"Ho pianto insieme a Belen quando avevano diagnosticato una cosa molto brutta a un mio caro familiare

Sarà stato Aprile 2018."

For more infomation >> ✅ Corona: nuovi retroscena sulla storia d'amore con Silvia e Belen - Duration: 2:34.

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Kia cee'd Sportswagon 1.0 T-GDi DynamicLine Navigatie, LM-velgen * - Duration: 0:54.

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Maryland Teacher of the Year, Dr. Richard Warren, Stops by Historic Studio D - Duration: 6:29.

MATHEMATICIAN

ASSESSED ALBERT EINSTEIN SAID

IT IS THE SUPREME COURT OF

THE TEACHER TO AWAKEN JOY AND

CREATIVE EXPRESSION AND

KNOWLEDGE AND ITS THAT SKILL

THAT ALLOWS THEM TO IMPACT OF

STUDENTS LIFE INSIDE AND

OUTSIDE OF THE CLASSROOM OUR

NEXT GUEST HAS BEEN TEACHING

SCIENCE AND STEM FOR SIX

YEARS NOW AND SOMERSET COUNTY

AND IT IS HIS DEDICATION TO

HELP STUDENTS ACHIEVE BEYOND

THEIR GREATEST IMAGINATION

THAT LANDED HIM THE HONOR OF

MARYLAND TEACHER OF THE YEAR

WE'D LIKE TO INTRODUCE TO YOU

THIS AFTERNOON. CHRIS FIELD

FROM CRISFIELD HIGH SCHOOL

AND ACADEMY TEACHER DR

RICHARD H WARREN JUNIOR THANK

YOU SO MUCH FOR JOINING US

THIS AFTERNOON GOOD TO SEE

YOU FIRST OFF CONGRATULATIONS

SO THAT IS WONDERFUL YOU KNOW

I COULDN'T IMAGINE BEING

HONORED WITH THIS AWARD BUT

IT'S DEFINITELY SOMETHING

THAT I KNOW THAT I DO A GOOD

JOB YEAH I'M PASSIONATE ABOUT

IT SO I GUESS MY PASSION AND

PURPOSE IN THIS AWARD ALL MET

TOGETHER CAME TOGETHER

WONDERFUL OK SO I WAS LOOKING

AT SOME INTERVIEWS YOU DEAD

FOR TEACHER OF THE YEAR FOR

THE PROGRAM AND YOU SAID YOU

ARE A PRODUCT OF TEACHERS

SAVING YOUR LIFE WHAT DO YOU

MEAN BY THAT ABSOLUTELY. I

GREW UP. QUITE UNUSUAL MY

PARENTS DIVORCED WHEN I WAS

11 YEARS OLD SO THAT CAUSE ME

TO BE TRANSFERRED TO ABOUT

SIX DIFFERENT SCHOOL

DISTRICTS SO I SAW MOVE FROM

PLACE TO PLACE TO PLACE TO

PLACE AND THE LAST PLACE I

MOVED OUT WAS SURROUNDED BY A

LOT OF GANGS VIOLENCE

PROPERTY DRUGS A LOT A LOT OF

NEGATIVE SITUATIONS I WAS

SURROUNDED BY AND REMEMBERS

LIKE IT WAS YESTERDAY CAME TO

SCHOOL AND I WAS DOWN. I FELT

LIKE THERE WAS NO WAY THAT I

WAS GOING TO BE ABLE TO MAKE

IT OUT AND IT WAS TEACHERS

WHO PULLED ME AND WHO TOOK ME

WHO GAVE ME PREP TALKS WILL

ENCOURAGE ME TO SUCCEED THEY

REALLY HELPED SHAPE MY

MINDSET IN TERMS OF I CAN BE.

WHATEVER I WANT TO BE. IF I

USE EDUCATION AS A PLATFORM

TO LAUNCH ME INTO MY DESTINY

SO LITERALLY IT WAS

THE TEACHERS WHO ACTUALLY

HELPED HELPED ME IN THAT

ASPECT SO I CONTRIBUTED MOST

OF MY SUCCESS TO THEM BECAUSE

IF IT WASN'T FOR TEACHERS

FILLING IN THOSE GAPS FOR ME.

WOULDN'T BE WHERE I AM TODAY

YOU HAVE PROVEN THE FACT THAT

IS JUST INCREDIBLE THAT ISN'T

GROWTH OK SO YOU'RE AN EIGHTH

GRADE SCIENCE AND STEM

TEACHER AND HOW IMPORTANT DO

YOU THINK IT IS THAT WE HAVE

STUDENTS IN FACT THAT ARE

TAUGHT SPECIFICALLY INSTEAD.

WELL STEM AS ONE OF THOSE

FIELDS WHERE IT'S BECOMING

MORE AND MORE DEMANDING RIGHT

ACROSS THE UNITED STATES AND

STEM IS INTERDISCIPLINARY

MEANING THAT THERE IS NOT

JUST ONE THING YOU DO THERE

ARE MULTIPLE THINGS THAT YOU

DO AND NOWADAYS MORE

BUSINESSES ARE LOOKING FOR

PEOPLE WHO CAN DO MORE IN

THE ONE THING. NOT JUST SO

FOCUSED ON SO STEM IS

CRITICAL FOR OUR STUDENTS AND

IT ALSO PROMOTES THAT PROBLEM

SOLVING THAT TEAMWORK AND

SOME OF THOSE CRITICAL SOFT

SKILLS THAT OFTEN GO

OVERLOOKED WE'RE DEVELOPING

THEM IN MY CLASSROOM. FOR

EXAMPLE I LOVE FOR STUDENTS

TO BECOME PROBLEM SOLVERS

YEAH I TRY TO GET THEM THEY

SAY HEY YOU ARE ANSWER TO A

PROBLEM SO WE'RE GOING TO USE

THESE CONCEPTS AND WE'RE

GOING TO GIVE YOU A CHALLENGE

AND WE'RE GOING TO SEE WHAT

YOU DO WITH IT SO STEM AS

CRITICAL IN THAT ASPECT

BECAUSE YOU'RE ACTUALLY

HELPING TO CREATE THE NEXT

THINGS FOR OUR FUTURE NOW

WAIT YOU TEACH IN SOMERSET

COUNTY. AND DO YOU FEEL LIKE

SOME OF YOUR STUDENTS THAT

YOU ARE TEACHING ARE MUCH

LIKE YOU WERE WHEN YOU WERE

YOUNG POSSIBLY AT RISK YEAH

WELL SOMERSET COUNTY FIRST

AND FOREMOST IS AN AMAZING

COUNTY TO WORKING WE SAY

OFTEN WE ARE SMALL NUMBER BUT

WE ARE MIGHTY AND SPIRIT. AND

THAT CONCEPT KIND OF DRIVES

OUR PERSPECTIVE OF WITH OUR

STUDENTS WE BELIEVE IN

SUCCESS NOTHING LESS HOWEVER

WE DO UNDERSTAND THAT OUR

KIDS ARE COMING FROM SIMILAR

SITUATIONS THAT I'VE COME UP

IN PROPERTY. DISADVANTAGE

OPPORTUNITIES SO IT'S MORE

MEANINGFUL ME FOR ME TO TEACH

THERE AND FOR ME TO ACTUALLY

BE IN A POSITION WHERE I CAN

SHARE MY STORY AND SHARE SOME

OF MY INSIDE OF HOW I MADE IT

OUT IT JUST MAKES LEARNING

AND TEACHING SO MUCH BETTER

AND OUR STUDENTS WERE GROWING

MORE AND MORE CONFIDENT THAT

THEY TOO CAN MAKE IT OUT. NOW

YOU ALSO VOLUNTEER WITH A NEW

TEACHER INDUCTION PROGRAM YES

WHY AND TELL US WHAT IT IS

WELL NEW TEACHER INDUCTION

PROGRAM CONSIST OF

ORIENTATION GETTING NEW

TEACHERS ORIENTED INTO

THE NEW SCHOOL DISTRICT AND

WHICH ALLOWS BEGINNING

TEACHERS WHO ARE IN THEIR

FIRST THREE YEARS TO HAVE

OPPORTUNITY TO GROW DEVELOPED

AND GET INSIDE AND

PERSPECTIVES ON WHAT IT TAKES

TO SURVIVE AND THRIVE IN

THE CLASSROOM I LOVE BEING A

PART OF THIS PROGRAM ARE

COMING ALONG SIDE OF IT

BECAUSE I GET OPPORTUNITY TO

GIVE BACK TO TEACHERS WHO

ACTUALLY GAVE TO ME TO GIVE

THEM A PROFESSIONAL

DEVELOPMENT TECHNIQUES TO LET

THEM INVITE THEM INTO MY

CLASSROOM TO SEE

THE STRATEGIES THAT I USE AND

TO EMPOWER THEM TO GO OUT AND

MAKE A DIFFERENCE SO

THE TEACHER I RECOMMEND AMY

DISTRICT TO GET THAT BECAUSE

TEACHER RETENTION AND

ATTRITION IS A PROBLEM WE

HAVE A LOT OF TEACHERS WHO

ARE STAYING IN THE CLASSROOM

FOR ONE REASON OR ANOTHER BUT

I BELIEVE THIS SUPPORT SYSTEM

ALLOWS TEACHERS TO FEEL

COMFORTABLE AND ISOLATED AND

WE KNOW THAT THERE IS A

COMMUNITY OF PEOPLE RALLIED

AROUND ONE ANOTHER. THEY'RE

MORE LIKELY TO SUCCEED ALL

RIGHT SIDE MARILYN STATE

TEACHER OF THE YEAR WHAT'S

NEXT WHAT'S NEXT I DON'T KNOW

WHAT'S NEXT BUT WHAT I CAN

SAY IS I'M GOING TO SUBMIT MY

NATIONAL TEACHER TO YOUR

APPLICATION AND WE'RE GOING

TO SEE WHAT HAPPENS. I REALLY

HOPE TO SPEAK TO A LOT OF

DIFFERENT TEACHERS AND

STUDENTS AND DIFFERENT SCHOOL

DISTRICTS AND KIND OF

EMPOWERED HIM TO KEEP GOING

TO KEEP MOVING FORWARD

BECAUSE THE WORK THAT WE DO

IS SO IMPORTANT I MEAN I HAVE

STUDENTS WHO WHO HAVE DREAMS

TO BECOME SURGEONS DOCTORS

SOFTWARE DEVELOPERS NEWS

ANCHORS AND THEY ARE LOOKING

UP TO US TO GIVE THEM WHAT

THEY NEED TO MOVE FORWARD AND

SO THAT'S NEXT TO ME I WANT

TO REALLY JUST CONTINUE TO

EMPOWER TEACHERS AND ALSO

WANT TO SUBMIT MY NATIONAL

TEACHER YOUR APPLICATION WELL

WE'LL SEE WHERE IT GOES GOOD

LUCK WITH THAT. I CAN LOOK

HIM AGAIN. THAT'S WHAT WE'LL

HAVE YOU BACK WHEN HOWEVER DR

RICHARD WARREN JR. THANK YOU

For more infomation >> Maryland Teacher of the Year, Dr. Richard Warren, Stops by Historic Studio D - Duration: 6:29.

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Why Do We Have Different Skin, Hair and Eye Color? - Duration: 6:24.

We have a wonderfully diverse and beautiful world filled with millions of species of both

animals and plants.

At the top of the food chain sits us human beings – the most dominant of predators.

Us homo sapiens all share similar characteristics with one another, but in the details we can

vary dramatically.

We don't all look and sound the same.

We don't think the same.

But why is this?

Why do we differ in eye color, skin tone and hair?

That's what we will find out in today's Infographics Show – Why do humans have different

skin, hair and eye color?

First let's look at the science of skin.

The color of our skin is determined by a pigment known as melanin.

All humans have melanin but it comes in different forms and ratios.

The two main forms produced by a specialized group of cells called melanocytes are known

as eumelanin (brown and black hues) and pheomelanin (red and yellow hues.)

First up, we should understand that there is no such thing as black, white, red, or

yellow skin.

You have a mixture of colors, like an artist's palette, depending on your genetic predisposition.

So should you have very dark skin you're mainly producing eumelanin, while if you are

pasty white you lack melanin, and if you have red hair you would be pumping out pheomelanin.

Most important is the size and number of melanin particles when determining skin color.

Some people produce a low melanin count which results in less pigment and ultimately lighter

skin.

Some folks can temporarily change their skin color by laying on the beach or hitting a

tanning salon.

Sun stimulates the production of melanin and inflames the skin surface to form protection

against UV exposure.

But this still doesn't answer why people have different color skin.

Well if we go back in time, say, a million years or so, anthropologists and archeologists

have told us that man lost his furry coat and began walking erect.

Since that time the species has been subject to an endless process of natural selection

in which favorable genes have been naturally selected in a Darwinian fight for survival.

One of the most important human adaptations is the ability to withstand intense sunlight.

Early humans who lived in sub-Saharan Africa, near the Equator, developed a way to tackle

the pounding sunlight and radiation.

Over thousands of generations, our early ancestors developed skin with higher levels of melanin,

and in particular eumelanin, to protect and block them against the sun.

Scientists reckon that it wasn't until about 100,000 years back that people's skin color

actually began changing.

Before that, apparently all humans were dark-skinned.

As humans migrated to Europe, northern Asia and the Americas, they discovered less sunny

areas and as a result developed vitamin D deficiencies.

Vitamin D is essential for human health, assisting in breaking down calcium and other essential

minerals for growth.

The primary source for vitamin D is, yes you guessed it, sunshine.

Sunlight radiation helps synthesize the vitamin in the skin.

In countries such as Norway or Finland where there is little sunlight for parts of the

year people have very pale skin to make sure they are exposed to UV rays when the sun is

out to process vitamin D.

This lack of melanin means they can soak up all the rays possible when the sun is out.

It is interesting to note that in countries where sunlight is the most prevalent, such

as Africa, India and South East Asia people desire to have pale skin.

In countries where there is little sunlight people desire darker skin.

Both skin-lightening, and skin darkening are huge industries.

The beauty and pharmaceutical industries makes billions from telling us we need to look the

opposite of our biologically chosen appearance.

Well, beauty is in the eye of the beholder and without further ado let's move on to

eyes.

What determines eye color?

Well, it seems there are two large factors at play here.

The volume that dark brown pigment called melanin is in the iris, and the way that the

eye spreads light that passes through it.

The pigment part of the equation is determined by your genes and passed down by your parents.

Again, as with skin, melanin is there to protect us from those potentially harmful UV rays.

And again around 10,000 years ago, all humans had lots of melanin and pretty much everybody

had brown eyes.

Over the years genetic mutations began to affect certain genes reducing the volume of

pigments, resulting in bluish light reflection.

Colors such as green, and grey are halfway between brown and blue.

Some rare eye colors have evolved.

Amber eyes have a unique pigment called pheomelanin dominant.

People with this mutation are rather rare to find.

People and animals who have albinism exhibit a congenital disorder related to pigment production.

Albinos have a partial or total loss of pigment meaning that you can see straight through

to the reddish retina.

It goes without saying that albinos are subject to light sensitivity and often require the

aid of protective glasses.

And then there are those people who are born with different color eyes.

They may have one brown and one grey.

This condition is known as heterochromia and can be caused by genetics, injury, or another

form of mutation.

So we've looked at eyes and skin, now let's take a look at hair.

What determines the color of your hair?

Well, I'm sure you are keeping up and noticing a trend here and yes, hair colour is down

to melanin and those eumelanins and pheomelanins once again.

Pheomelanin produces red pigments and eumelanins produce black and brown pigments.

A person who has very little eumelanin will usually have blond hair.

Low eumelanin results in gray hair.

A person well stocked in eumelanin will have dark brown or black hair.

Each and every person has some pheomelanins but a person with red hair will have a particularly

high concentration of pheomelanin pigments.

The variation of hair, eye, and skin color may be a result of what geneticist Luigi L.

Cavalli-Sforza calls sexual selection.

Like natural selection this phenomena is a force that pushes one genetic variation ahead

of the other.

But unlike natural selection sexual selection focuses on traits that relate to attracting

mates.

Hair color diversity, along with eye, and skin color may be driven to an extent by what

we find desirable in the opposite sex.

Luckily we don't find the same colors and variations attractive so diversity looks set

to remain.

So what do you think is the most desirable hair, eye, skin color?

Let us know in the comments!

Also, be sure to check out our other video Weird Things Americans Do.

Thanks for watching, and as always, please don't forget to like, share and subscribe.

See you next time!

For more infomation >> Why Do We Have Different Skin, Hair and Eye Color? - Duration: 6:24.

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Chinese Dumplings Recipe: I Reveal Century Old Secret Family Recipe (will delete on new years) - Duration: 14:41.

Hey everybody, welcome back to my second cooking video as you can see on the screen

This video is gonna be all about traditional pork dumplings specifically Chinese pork dumplings the way my family has always made them

Hopefully by the end of this video you will not only know how to make these but also have a newfound appreciation

For just how much work that's put into these tasty little morsels in the description below

I am going to be including some time links for those of you who wish to jump back to a particular

portion of the cooking process simply click on these links and you will just skip to that section with that being said

I hope you and your family have a chance to make these in your own kitchens

and if you did

please

Let me know either through a youtube comment section or any of the social media links that I have also provided in a video description

So let's get to making dumplings. Hey guys, this is Jays little sister. Yeah. I'm the one filming again

Hi, so dad. How was your day?

good good

yea we will make dumplings right

right

this is pork

2 pounds of pork

cabbage

ginger

green onion

salt

Chicken Broth first we start to make dough

flour

about 1 pound

Yeah, so we're just gonna dump some in there

and then 1 cup of water

You already made it oh

Look at that

Well pork just regular pork, yeah, I'm gonna color on that

Mix it in so you put in how much chicken broth

Right, so I mean I you eyeball that looks about to be quarter of a cup

Do we just say that the same time?

That is a big thing of cabbage, can we just stop and just mention how big that cabbages or did you find such a large?

Aha and the secret ingredients at any

Oriental style cooking the Holy Trinity of Asian cooking is of course ginger and the flavours that imparts

A bite of ginger or even if it's cooked. You don't want to get big chunks of ginger in your food

Is that me making that noise he's like you making that noise coming

Where'd you find that cabbage

Probably giant grocery store Chinese Chinese person. I've never seen a cabbage

No, so you might want to explain what these colorful bottles bar

Oyster sauce. Oh my god, moist ercel chinese, ketchup the contrary to popular belief in what it says

It is not made from oysters. I

Don't think it is made from oysters

dad carrot clarify

Some what Chinese spices spicy stuff is that five-spice powder?

Probably not as numbing

One egg

Gotta get that olive oil in there. My dad here is a master at this. This is probably the millionth time

he's made this dish so he can eyeball it you guys watch the camera a

Little splash of light soy for coloring for that extra umami flavor and continue mixing with your chopsticks

Literally, you're not even mixing this too much. It's just a pair of chopsticks the ground around in a circle

Let me give you a flavor I wish you guys could smell this

Wide shot

Do not eat this raw meat make sure you will have the runs for

Mmm smells delicious smells a sesame like a lot of boutique garlic flavorings in there. Well, obviously

This is

That's this is just left over right

What we're doing here is we're slicing this into little small amounts of dough that it's going to be rolled out

What's the point of dusting this now

Speaking exactly kind of obvious when you're using dough

Would you I worry that you should must oh, this is the internet we're showing this to might take it a little says they there

Okay

And the center has to be thicker than any it was perfectly round circular

Dough Dobie pancakes now again first-timers. There's a special technique of doing this

Demonstrate how you seal the darling hug?

The filling in need to press the centers

You fold the edges up and you just pinch

So everything is folded together almost like you're making burrito just it's not a burrito

Love that

You tuck it in and you pinch it shut

They will do the fright, okay, we're fries today boiling is the healthiest wave of frying the taste amazing

Very proud

There you go, you got your morning frying head you can also use a wok

Grab some of that oil there and it just both men

Cooller who are using

Too late notice how he

Labels them around as he puts them in

As a secret technique to make sure that the dump leaves absorb the most amount of oil on the bottom and that they don't stick

To the pan. So you got to put the Mentos just one minute. What a man hold it wiggle

The purpose of this is just to get the bottom to caramelize Melrose and when you do that

The dumplings will not stick to the bottom of the pan

Basically forms

Okay, a little steeper action go on and this will cook the dumper means from the inside the top side looks great. Doesn't it?

I can't wait to eat these dumplings

So, what are you looking for down here with your agents what's going on?

Water dry out inside

The Chiquita shotgun, look what an amazing that just within five minutes that are now easy one - we'll get up

Because it is I think wasting pounds per square inch

You wouldn't have you ever open a coconut

oil in

Heat on souperblast. That is a huge flame. Okay

That's when I'm super safe and that's a lot

Yeah, you need that oil to to extract the flavors of all the morning kisses

If you do not know how to do this, please do not try this at home. I wish you guys could are here right now

Smelling what we're smelling I smell all kinds of aromatics and delicious flavors

He is mad vinegar. That is Chinese black vinegar

Going into the law and that is going to be this special sauce

First penis, whoa

Look out delicious that looks

special secret sauce fried

Pasta tears and we didn't show you how to do this how to another video on how to make

spicy red chili oil

Right here

another time

What kind of flavors are you experiencing what kind of flavors that

Spice

Good yeah, alright you turn. So it's crunchy and chewy at the same time

Oh, he's got the spice on it. Yeah. Uh-huh. So you get you get a mixture of all that good stuff

Mmm

Somebody else wants to try don't you know what? Yeah. Maybe it's too hot for

Yeah a little bit more salt this is how you guys go

Have your dumpling here and do you want to do let's get some of this vinegar?

secret sauce in addition to the red chili oils

Is this how I this is how I eat this guys

Get your sauce

Sprinkle on bubbly tiny bit of peppers chili oil

Just so what you do you mix it all up

It smells wonderful take a bite

Mmm

That is so good, there you go. I'll give you a close-up

More dumplings

Her name is chocolate and you can tell by her expressions. She cannot wait to eat. This don't point. I

Dropped it doggy

So good Jay

For more infomation >> Chinese Dumplings Recipe: I Reveal Century Old Secret Family Recipe (will delete on new years) - Duration: 14:41.

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Remember to subscribe to our channel and open notifications. Good Cruising.

Once Upon a Time Çukurova Section 8 Trailer Forecast

Hi all, friends. Immediate fragment estimation and analysis we did. All our Iron and Züleyha lovers have 100 likes and 100 comments. Good Cruising.

Demir - Yilmaz in the struggle for the iron, Yilmaz, the biggest problem was not to kill. Yılmaz will get stronger and will take everything in his hands. But in the 15th episode, we see it.

Clearly the books will not be closed without the accounts being seen. Two creditors will be strengthened in the Yaman family. However, the series began to resemble the Ezel series, which was published in recent years. Even the characters are exactly the same. :))

As we know in the trailer analysis Züleyha's child's name, Adnan was. What will happen in the next section? Your comments are welcome. All BZÇ lovers are looking for 100 reviews and 100 comments. New videos will come. Stay on track.

Remember to subscribe to our channel. Part and trailer analysis videos will come. Stay on track.

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