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Physics: Heat Transfer 102 Views


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Description:

Time to learn about heat transfer. And no, that doesn't mean which Miami Heat players are leaving the team this year.

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English Language
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Transcript

00:02

heat transfer thermal energy never chills out my absolute zero [mumbles]

00:21

Well is there anything better than a campfire on a cold night the [People gather round a campfire]

00:25

smell the warmth the cooking of gooey marshmallow goodness

00:30

whenever you light up a campfire it's pretty obvious that there's a lot of [Men appear in basketball attire]

00:34

heat going on we have to be careful with fire though we can't just go around and

00:38

willy-nilly burning stuff down Scouts don't give out merit badges for arson [Scouts appear by a campfire]

00:43

but when we're sitting six feet away from the fire well how does all that

00:47

heat get to us turns out that heat moves around in a few different ways which

00:52

shows just how complicated heat can be dead hot there well let's do a quick [Man burns hands on fire]

00:59

refresher about what heat is in the first place well heat is the transfer of

01:03

thermal energy from one system to another and that transfer part is really

01:07

important if energy isn't moving well we don't have any heat you may have [Woman with thermal energy t-shirt sits down]

01:12

experienced heat transfer if you've ever touched a pan on the stove you may think

01:17

that pan is hot well you may also think I am not smart for touching that hot pan [Man touching pan]

01:24

but what do we mean when we say something is hot different hot an object

01:30

is hot if it has a lot of thermal energy and we measure the amount of thermal

01:34

energy in an object by taking its temperature orally whenever possible

01:40

thermal energy comes from wiggling okay physicists might not use the term [Molecules vibrating]

01:45

wiggling but all the molecules and atoms that make up an object are constantly [Baby jumping on trampoline]

01:49

vibrating like a sugared up two-year-old the more they wiggle the more thermal

01:55

energy the object has there are three different temperature scales that are

01:59

used right?

02:02

what well those are scales you know anyway here in the US and a few small [Map of globe appears]

02:07

countries like Belize and the Bahamas we use the Fahrenheit scale the rest of

02:13

the world uses Celsius because well it's a simpler scale to understand with [People protesting on road]

02:17

Fahrenheit water freezes at 32 degrees and boils at 212 why is there a hundred

02:22

eighty degrees spread between those two points

02:24

but with Celsius water freezes at zero degrees and boils at 100 it just makes

02:29

more sense doesn't it but we can convert Fahrenheit to Celsius

02:32

with little math first we subtract 32 from the temperature in Fahrenheit then

02:37

we multiply that number by 5 and then divide the result by 9 here's the

02:42

equation in all its glory though there are the two temperature [Thermometer rises]

02:45

scales that we use in day-to-day life but scientists use a different one

02:49

called Kelvin, Kelvin is just like Celsius except zero in Kelvin is zero as

02:55

in no thermal energy no wiggling no vibrating nothing and it turns out that [Molecules stop vibrating and stay still]

03:02

absolute zero is just about equal to negative 273 degrees Celsius which means

03:08

that water freezes at 273 degrees Kelvin and boils at 373 degrees so how do we

03:17

convert from Celsius to Kelvin well we just add 273 you know whatever we have [Boy scout appears in classroom]

03:21

in Celsius way easier than messing around with all that fahrenheit stuff so

03:26

let's get back to how heat actually moves around now people can move around [Scout stood by campfire]

03:30

in all sorts of ways we can drive we can fly we can do the worm yeah but heat [Man doing the worm and cheerleaders scream]

03:36

moves in three ways conduction convection and radiation

03:41

well conduction is a method that we're all familiar with whether we know it or

03:45

not conduction is the transfer of heat between two systems that are in direct [Conduction definition appears]

03:50

contact with each other say that we're trying to be old school scouts by doing

03:54

some blacksmithing yep there used to be a merit badge for blacksmithing but it [Blacksmith hitting iron]

03:58

was discontinued in the 1950s because well who needs a blacksmith anymore I

04:02

mean I order all my horseshoes from Amazon free shipping and everything but [Scout opens van]

04:06

imagine a blacksmith sticking a piece of metal into a fire to get it all hot and

04:11

bothered well what happens at a molecular level here well the

04:15

temperature of the fire is definitely higher than the temperature of the

04:17

metal when the fire comes into contact with the metal the fire sends heat to [Man discussing heat and metal in a field]

04:21

the metal bar the particles on the bar start getting their groove on shaking

04:26

and vibrating like crazy in fact there's basically a molecular

04:29

mosh pit going on and as these molecules slam into other molecules that aren't [Molecules vibrating rapidly]

04:35

touching the fire well those particles also start to move faster that keeps on

04:40

going down the length of the metal it's like basically a giant molecular chain

04:45

reaction you might have experienced conduction in action if you've ever used [Scouts roasting marshmallows]

04:49

a metal skewer to roast a marshmallow maybe a prop the skewer on a log for a

04:54

minute or two with one end in the fire then try to pick it up and that might

04:58

have helped one of your fellow Scouts get a merit badge for first aid when [Scout burns hand on fire]

05:01

they treated your second-degree burn on your fingers their conduction doesn't

05:06

have to involve fire if you've got an electric stove the burner conducts heat

05:10

to a pan because they're in direct contact well that's the key part of [Pan on top of a stove]

05:14

conduction objects have to be all touchy-feely with each other but some

05:18

materials are better at this whole conduction thing than others which is

05:22

why in MIT's exist oven mitts protect our soft tender hands [Man wearing oven mitts]

05:26

because they're made of material that doesn't conduct heat very well these

05:30

materials are called insulators just like insulation in your home most metals

05:35

are good at conducting heat because in addition to atoms that get excited

05:39

metals also have free electrons you they're just bouncing around Footloose [Electrons travelling round a shell]

05:46

and fancy-free going from atom to atom that extra energy from the free

05:51

electrons gets the whole vibration thing going even quicker in insulators though

05:57

the electrons aren't going anywhere they're stuck to the atoms like clingy [Boy attached to woman's leg]

06:02

little brothers so energy doesn't move around very much at all and the best

06:06

insulation of all is a vacuum nope not a dyson we're talking about the absence of [Vacuum appears]

06:11

matter no molecules at all like in outer space that's how thermoses work they've

06:17

got a vacuum in between the inner wall and the outer wall it's not a perfect

06:21

vacuum there are a few molecules of gas popping around but the fewer the

06:26

particles the fewer chances for them to get

06:29

they're all worked up but when we're talking about gases how does heat move

06:33

within them and same question with water it moves differently in fluids and yeah [Scout discussing gases in vacuum]

06:38

fluids aren't just things that are wet anything that flows is a fluid in air

06:43

well yeah gases can definitely flow like carbon dioxide flow and off dry ice heat

06:49

is transferred within fluids using a method called convection let's think

06:54

about a car on a hot sunny day like when you come out from a Sunday matinee and [White car drives and parks outside theater]

06:59

realize that the inside of your car is about 5 million degrees if you open the

07:04

door and look carefully you can actually see the hot air from your interior [Man and woman walk up to car]

07:08

rising and shimmering as it escapes but when a fluid gets hot its molecules

07:13

freak out just like they do in a solid but in a fluid the molecules aren't in

07:18

any kind of rigid matrix their weight less attached to each other so as they [Thermometer rises]

07:23

vibrate they get farther and farther apart from each other which makes them

07:26

less dense and that's density in terms of the amount of mass per volume not

07:30

density like my brain first thing in the morning before I've had coffee when a [Scout holding a cup of coffee]

07:34

fluid loses density it rises because it's lighter than the part of the fluid

07:39

that's colder and denser well that's how a hot air balloon works the heated gas

07:43

in the balloon is less dense than the air outside of the balloon so it's able [Hot air balloon rises into the air]

07:47

to float within a fluid the less dense fluid rises and gravity does its thing

07:53

on the colder material pulling it down that motion creates circulation if we

07:59

have a heat source warming liquid or gas from the bottom the matter close to the

08:03

heat rises which makes the colder matter sink bringing it closer to the heat

08:08

source which makes it lose density and rise up around and around and round and

08:12

round it goes well there's another way convection can occur forced convection

08:17

yeah forced convection happens when an outside force pushes a liquid around

08:22

there are fancy-pants convection ovens that use this method there's a fan [A chicken appears in an oven]

08:27

inside the oven which makes the air circulate keeping the temperature nice

08:31

and even inside another way create forced convection is to chug a soda then [Girl chugs a soda bottle at the bar]

08:36

give yourself a few seconds to generate that mighty belch that's dying to come

08:39

out if chances are the air inside your guts

08:43

is warmer than whatever room you're in so as you exhale you're creating [Girl belches at the bar]

08:47

convection disgusting convection but still well the key difference between

08:53

conduction and convection is movement in conduction only heat moves around from

08:59

one object to another but in convection matter moves along [Man licks a frozen lamp post]

09:03

with the heat okay one more method of heat transfer and it's the scariest

09:08

sounding one radiation yeah now we tend to think of radiation as the thing that [Godzilla appears in Tokyo]

09:13

made Godzilla but good news Godzilla isn't real

09:18

also not all radiation is nuclear radiation, radiation just means energy

09:24

that's transferred by waves or by rays of particles well anything that has a

09:30

temperature gives off electromagnetic waves and matter can absorb those waves [A rock appears with electromagnetic waves]

09:36

too you've seen this radiation if you've ever seen one of those weird infrared [Scout appears in car garage]

09:40

images like this guy this cat we can see how much heat he's given off compared to

09:45

the colder background and we can also see how much colder his nose is than the

09:51

rest of his body...... all right another example of heat transfer by radiation [Sun beaming and ship travelling in the ocean]

09:58

comes from the Sun well the Sun is about 93 million miles away from us but it

10:03

creates a huge amount of heat, heat like around 6000 degrees Kelvin and the

10:09

electromagnetic radiation generated by this thermal energy is what heats our [Electromagnetic radiation appears from the sun]

10:13

planet as hot as the Sun is there's no way for convection to transfer that heat

10:19

throughout the solar system that's because most of outer space is of vacuum

10:24

remember convection needs fluid there's no fluid in space because well there's [Scout wearing astronaut helmet discussing vacuums in space]

10:29

no anything in space it's a vacuum so it's the electromagnetic waves that get

10:34

the atmosphere and everything else all worked up the thermal energy transfer [Man sitting on beach and is burnt by sun]

10:38

doesn't come from direct contact like conduction or from matter moving around

10:43

as it gets excited like convection it's all about the waves here people like I

10:48

said before there's nothing better than a nice toasty [Scout standing by campfire]

10:50

the campfire and we already talked about how conduction can turn roasting a

10:54

marshmallow into a second-degree burn right but would there be convection [Scout burns hand roasting marshmallow]

10:59

going on here and how about radiation well what do we need for convection well

11:04

for one we need a heat source and I'm pretty sure this pile of burning logs

11:08

meets that requirement well then we need fluid and a melting marshmallow well it

11:12

doesn't count but air sure does the air molecules that

11:15

are coming into direct contact with the fire are experiencing conduction but as [Scout discussing air molecules by campfire]

11:21

they rise well the cooler air sinks and then it

11:25

heats up plus the warm air rises and excites some of the cooler air around it

11:30

oh yeah we're 2 for 3 and radiation well if you've ever been camping on a cold

11:36

night you've probably held your hands up to warm them by the fire I'm going to [Scout warming hands by the fire]

11:40

assume you're smart enough to not actually touch the fire and convection

11:45

is all about rising and sinking air it doesn't really do the whole side to side

11:49

thing when you put your hands up to something hot you're benefitting from

11:52

the electromagnetic waves radiating from the heat so we've definitely got [Scout warming hands on fire with electromagnetic waves]

11:57

radiation going on here as well don't worry though it's highly unlikely

12:00

the campfire will turn you into some grotesque irradiant mutant we think and

12:05

the campfire shows how heat can be transferred in all three ways at the [Heat transfer ways from the campfire]

12:09

same time which is usually the case in fact even snuggling up to someone

12:14

involves the conduction of body heat convection going on in the air [Man and woman cuddling on sofa]

12:17

surrounding you and radiation coming from well pretty much everything well

12:21

there's no getting away from heat which is a good thing and there's no getting

12:25

away from physics either even in the scouts there's a merit badge for physics [A scout merit badge appears]

12:29

nuclear physics as a matter of fact which might seem kind of sinister after

12:33

all why do the scouts need nuclear physics I don't worry about it it's all

12:37

part of our plan to take over the world with pinky in the brain and rule with an [Scout discussing nuclear physics and explosion occurs]

12:41

iron fist just remember our motto be prepared yeah be prepared for the Scout

12:47

uprising yes people be very prepared you

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