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Isaac Newton. Who was he? Why do we need to know about him? In a physics course, no less? Well, he's only the most famous physicist in history, and is responsible for the all-important Laws of Motion, which we'll be delving into deeply in this course. So... take off your physics shawl for a sec, and put on your history hat.

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English Language
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Transcript

00:28

Isaac Newton physics genius brilliant inventor..weird dude

01:33

let's get started.... I want to introduce you to my buddy

01:40

Isaac [Apple introducing Isaac Newton]

01:46

Isaac Newton....... okay okay Sir Isaac Newton sorry he's a little [Newton watering his plants]

01:55

touchy about pretty much everything we're not going to sugarcoat it Isaac

02:01

Newton would have been something of a big annoying rude but he's also one of

02:09

the smartest most important physicists mathematicians and inventors the world

02:14

has ever known the next few units are going to look at

02:18

his laws of motion which are the underpinning of a whole lot of physics [Man rides by on a bicycle]

02:23

stuff so we think it's only proper for us to give you a sense of who old Ike

02:28

here really was don't worry in a few years when everyone finally acknowledges

02:33

your genius we'll do a big biography on you too and we're sure we'll be able to

02:38

talk about how sweet and kind you are too but look maybe we're being too hard [Apple discussing isaac newton as a baby]

02:42

on Sir Isaac, he didn't have the happiest childhood after all he was born in 1643

02:48

in Woolsthorpe which is in jolly old England

02:52

his father died before baby Isaac was even born and when Ike was just a

02:57

toddler his mother left him with his grandma and married another dude...That [Isaac's mum hands Ike to Grandma and walks away]

03:01

action left Isaac with some abandonment issues which makes sense and left him

03:06

feeling pretty insecure eventually his mother took him back in and wanted to

03:10

make a farmer out of him but Isaac just wasn't cut out for the farming life and

03:15

luckily for him and for us his teachers agreed with him they saw how crazy good

03:20

he was at math and managed to send him off to college at Cambridge sure he had [Isaac standing outside of Cambridge University]

03:24

to wait tables at the college in order to pay his way but that just shows that

03:28

even super geniuses have to do work-study programs sometimes in 1665

03:34

when Newton was still in college there was the Great Plague of London [People walking around London in the Great Plague]

03:39

yike just the phrase Great Plague makes us want to go live in one of those

03:43

plastic bubbles it's spread to Cambridge was so bad that they decided to close

03:48

half the school for a year and a half you get excited for a snow day but a

03:53

year and a half we might actually start to miss going to school consider our [Apple banging on closed sign at school]

03:59

minds blown and Isaac must have missed it too

04:03

because it was during this period that he started laying the groundwork for

04:07

some of his most important work and while he's back on the farm working on [Isaac walking along wasteland farm]

04:11

physics all by himself he was sitting under an apple tree when one of the

04:15

apples fell and bonked him on the head and that's what inspired him to come up

04:20

with his theory of gravity or at least that's the myth... in reality

04:24

he just saw an Apple fall and that's what got him thinking, but the story isn't

04:28

as good as the whole head bonking thing... embrace your legend I think embraces it

04:33

sir Isaac's first major publication was all about optics and along with that

04:38

book he invented the reflecting telescope remember when he said he was [Isaac Newton looking through telescope]

04:42

super smart yeah we meant he was super smart but some people didn't like all

04:47

these new ideas for example Robert Hooke old Bobby H here was a member of the

04:54

Royal Society, the Royal Society is basically a bunch of scientists who get

04:59

together and talk about science stuff for the benefit of science [Scientists at a table for the Royal Society]

05:02

in addition science and science and more science but this club is pretty fancy

05:08

pants and not everyone was happy about old farm boy here showing up and showing

05:13

off Robert Hooke went after Newton pretty hard and Newton went right back

05:19

at him for years they argued at the society and send each other nasty [Newton and Hooke arguing]

05:23

letters just think of how epic their Twitter war would have been eventually

05:28

newton won a decisive victory by outliving Hooke which is always a winning

05:33

ploy but all this arguing wasn't worthless in fact one outcome of the

05:38

bickering was Isaac Newton's philosophy a naturalis principia mathematica

05:45

which is all mouth full of latin so let's just go with Principia... this [Apple discussing Principia]

05:49

book was Newton's most famous work and it introduced his three laws of motion

05:54

the Principia made Newton a full-on celebrity

05:58

he became a member of parliament and president of the Royal Society in fact [Newton standing in Parliament]

06:03

as president he ordered the destruction the only known oil painting of his old

06:08

nemesis Robert Hooke yeah Newton could really carry a grudge... in this unit we're

06:15

going to be diving deep into each of Newton's three laws but let's take a

06:19

quick look at them now Newton's first law of motion says that an object at [First of Newton's laws appears]

06:24

rest tends to stay at rest and an object in motion tends to stay in motion

06:29

which sounds a lot like our Saturday mornings and our Saturday afternoons so [Boy laying on couch]

06:34

basically this law says that all motion or lack thereof will be constant unless

06:39

something changes it this is also referred to as the law of inertia

06:43

inertia is a property of mass - mass is how much stuff is in a thing sorry if

06:49

we're getting too technical here the inertial mass is a measure of an

06:52

object's resistance to acceleration the more inertial mass an object has the [Apple trying to push a rock]

06:57

harder that object is to move which is something that just makes intuitive

07:02

sense after all you can make a ping-pong ball roll just by blowing on it if that

07:07

same ball was made of solid lead well you can huff and puff until you pass out

07:11

that ball would not be going anywhere and the game of table tennis would get [Man playing table tennis alone]

07:16

much more dangerous this law also means that anytime motion changes it's due to

07:21

a force acting on whatever is moving or not moving whichever the case may be

07:26

basically if an object's motion changes some force is responsible for that

07:31

change that force can be friction slowing us down when they put on clean [Girl skidding with socks on the floor]

07:35

socks and do some sweet floor slides that force can be gravity after all

07:39

without gravity bungee jumping would be like bungee floating or that force can

07:45

come from our muscles like when we slink away from the table because old uncle

07:49

Greg's talking politics again speaking of forces law numero dos is all about

07:54

force it says that a force that's applied to an object is equal to the

07:59

object's mass times its acceleration and that little arrows lets us know that

08:04

force is a vector because every force is applied in some direction yes away from Uncle [Greg standing by burning barbecue]

08:09

Greg counts as a direction we've looked at acceleration in a bunch of our

08:13

previous exercises so we know that it's expressed in meters per second squared

08:18

and the SI unit for mass is the kilogram so the unit of force is kilograms times

08:24

meters over a second squared which doesn't exactly roll off the tongue so

08:28

the bigwigs in charge of the whole SI unit system came up with a unit just for [Man standing in a library]

08:33

force it's the Newton yep named after Sir Isaac himself like we

08:39

said the Newton is made of kilograms and meters and seconds so if we're trying to

08:43

determine a force at a t-shirt cannon exerts on a shirt that weighs 200 grams [Girl fires t-shirt cannon at a man]

08:48

or the force that a snail exerts when it accelerates at a-blazing 3 inches per

08:53

second squared we have to convert everything so that it's using the right

08:57

units to match with the units that make up a Newton and of course what makes up

09:02

a Newton is fig paste wrapped inside a delicious pastry dough come on

09:08

you know we would make at least one fig newton joke

09:11

the third law is one that you're probably familiar with already maybe

09:14

your mom told it to you when you flicked your little brother's ear and he stomped [Boy flicks brothers ear and stomps on his foot]

09:17

on your toe in retaliation every action has an equal and opposite reaction now

09:23

this law might sound all deep and philosophical which it is when we're not

09:27

talking about physics but guess what we're talking about physics to think of

09:31

this law in a physics sense go blow up a balloon and use your own lungs not some [Apple blowing up a balloon]

09:36

spare helium tank you have lying around the house now don't tie it off let it go

09:40

see how it goes all over the place as the air escapes the balloon pushes the

09:45

air out of it neck is that what you call that part of the balloon you know the

09:49

air hole blow hole okay we'll stop there anyway the air is being pushed out [Air blowing out of the balloon]

09:54

behind the balloon and in reaction to that action the balloon is being pushed

09:58

forward okay let's look at some specific examples let's say Isaac wants to get

10:03

away from plague town which yeah.. get out while you can buddy so he decides to go

10:08

to Iceland why because in addition to being a genius he was born to figure [Isaac figureskating in Iceland]

10:12

skate Iceland also pretty far away from oozing

10:15

plague filled pustules he laces up his skates, finds a frozen lake and starts

10:21

to do his warmups he quickly gets up to a velocity of 12 meters per second and

10:26

he has a mass of 63 kilograms assuming that the ice is frictionless how much

10:31

force is needed for him to maintain his velocity wait we have numbers here we

10:36

know force equals mass times acceleration [Force formula appears]

10:39

Didn't we promise that there wouldn't be any math yes we did and we're not going

10:43

to break that promise right now what's the first law objects in motion tend to [Newton's first law appears]

10:47

stay in motion and this is special pretend ice that is frictionless so it

10:52

takes no force to keep Isaac at this velocity so the correct answer is zero [Isaac skating on the ice]

10:59

Newton's other than the one in the wig doing the pirouette over there let's say

11:03

that he's still cruising along skating his little heart out at 15 meters per

11:07

second when he startled by a rogue seal he trips and falls onto a snowy patch

11:11

where he slides for three seconds before coming to a stop how much force acts on [Isaac Newton upside down sliding in the ice]

11:16

Ike to bring him to a stop okay so here's where we lied about not doing math

11:20

whoops so what law are we dealing with here well we're trying to figure out the

11:26

amount of force that caused Isaac's motion to change that sounds like a job

11:30

for law number two force equals mass times acceleration we know his mass is

11:36

63 kilograms do we know his acceleration nope but we can figure it out real quick [Apple standing on the ice]

11:42

acceleration equals the change in velocity over time he started with a

11:47

velocity of fifteen meters per second and his ending velocity was a big fat

11:51

goose egg so the change in velocity is negative 15 meters per second and this

11:56

slide took place over three seconds so the acceleration is negative five meters

12:01

per second squared now we can plug that number into our force equation....63

12:06

kilograms times negative five meters per second squared gives us a force of

12:11

negative 315 Newtons since force is a vector quantity that [Newton upside down in the clouds]

12:16

negative value tells us that the force was applied in the opposite direction of

12:20

the initial velocity dust yourself off there Isaac we want to see a triple axle

12:24

from you looks like that fall hasn't been a bad

12:27

mood not that it takes much with this guy mm-hm

12:31

let's say he throws a snowball at the seal nothing too hard that snowball just [Isaac throws snowball at a seal]

12:35

has a force of 3 Newtons how much force does the seals head exert on the

12:40

snowball we lied to you once we''re not gonna do it again

12:43

there's no math needed here what's the third law every action blah blah blah

12:48

something about a reaction right equal and opposite well the opposite of 3

12:53

Newton's is negative 3 Newtons so the seals head exerted a force of negative 3

12:58

Newton's on the snowball like we said we'll be getting up close and personal [Apple figureskating]

13:03

with each of these laws this lesson is just making sure we're clear on the

13:07

general concepts and we hope that you use Isaac as a role model for what a

13:11

genius can achieve but maybe not for how a genius should act because when you're

13:15

dealing with people you can't be sure they'll react to things predictably with

13:19

an equal and opposite reaction people even seals might react in a way [Seal sliding on the ice]

13:23

you weren't planning on like say when you hit them in the head with a snowball

13:28

skate like the wind Isaac [Seal chasing Isaac on the ice]

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