ShmoopTube

Where Monty Python meets your 10th grade teacher.

Search Thousands of Shmoop Videos


Physics Videos 34 videos

Physics: Isaac Newton
33 Views

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...

Physics: The Basics of Trigonometry
35 Views

What are the basics of trigonometry? And why are we learning about this in a physics course? Both good questions. In this video, you'll learn about...

Physics: Unit Analysis and Graphical Data Analysis
36 Views

It's time to make our liters and meters work together. Enough of the bickering, right? In this video, we'll do some unit analysis, covering SI Unit...

See All

Physics: The Second Law of Thermodynamics: Why Making a Mess is Just Part of Physics 8 Views


Share It!


Description:

Time to learn about the second law of thermodynamics. But be efficient about it...our narrator has places to go, and places to clean.

Language:
English Language
Subjects:

Transcript

00:02

The second law of thermodynamics why making a mess is just part of

00:07

physics entropy........[mumbling]

01:11

sure everything is in its place if you spend most of your waking life making [Woman walks around bedroom]

01:17

sure things are organized and properly stored the rest of your life will be so

01:21

much happier ensure you can take this advice too far theoretically but we have

01:26

to do everything we can to fight disorder because the universe is [Girl cleaning bedroom with duster]

01:29

fighting back against us stupid messy universe what does a clean

01:33

bedroom have to do with physics to answer that question let's talk about

01:36

thermodynamics the first law of thermodynamics says that energy can't be

01:41

destroyed or created all the energy in the universe already exists it's not [Man with new energy t-shirt appears]

01:45

going anywhere and no new energy is going to walk through the front door

01:50

the second law of thermodynamics actually has a few different definitions

01:53

or different ways we can understand it have you ever dropped a few ice cubes in [Woman places ice cubes in to glass]

01:57

a glass of soda and then forgotten it on the counter

01:59

I haven't when you come back it's a gross watered-down disaster what

02:03

happened heat transfer habit that's what heat [Woman sad at ice melting]

02:06

moves from the warmer soda into the colder ice cubes making them melt so why

02:11

didn't it work the other way around why didn't we he'd go from the ice cubes

02:15

to the soda sure the ice cubes are super cold but they still have internal energy

02:20

but it would be pretty freaky if you put ice in a soda and the ice somehow got

02:24

Colder yeah it turns out that never happens it's actually impossible it [Woman discussing heat transfer]

02:29

would break the second law of thermodynamics one way to explain the

02:33

second law is to say that heat always flows from a higher temperature system

02:36

to a lower temperature system and it never ever goes the other way around

02:41

that just makes sense it's one of those things that's so obvious you wonder why [Scientist appears in a lab]

02:45

they even had to write it down I'm not judging but it turns out that the second

02:48

law is a little more complicated than that because the second law of

02:51

thermodynamics is really about entropy which is a fancy science word for

02:55

disorder or chaos the best definition of the second law of thermodynamics is as

03:00

follows in all natural processes the total entropy of a system and its [Definition of second law appears]

03:05

surrounding environment either stays the same or increases entropy never

03:10

decreases to put that in normal person speak things always become more

03:15

disorderly if we consider both the system and the environment around it

03:19

let's say it's a wonderful day for fun and we get to spend eight hours [Woman enters messy bedroom]

03:23

organizing the house it doesn't get any better than that does it just a full day [Woman cleaning bedroom]

03:29

of organizing and tidying by the time you're done it's almost as if you can't

03:34

detect any sign of human life at all it's perfect it's wonderful it's what

03:40

was I saying oh right entropy so we just showed that

03:44

there can be less disorder in the universe at least here in our little

03:48

pocket of it right sorry but no, first of all anytime you have that much fun

03:52

you're going to work up a sweat that means heat came off of you and went into [Heat molecules coming off woman's head]

03:56

the air and when you heat molecules up they move around and vibrate and don't

04:00

get all worked up which means they get more chaotic and as you scurry around

04:05

putting things away that also disturbs molecules in the air opening and closing

04:10

dresser drawers putting things on hangers the joyful act of throwing junk [Woman emptying bin]

04:13

away all of that involves friction which means heat which means chaos there is no

04:18

escaping it it's enough to drive you crazy if we don't get crazy because

04:22

crazy is chaos chaos is the enemy keep calm and clean [Woman walking away after emptying trash]

04:26

on another example of this happens when we have a bouncy ball we've all played

04:31

with one of these super balls that bounce like crazy right if you drop a [Man picks up black ball]

04:34

super ball without adding any extra energy to it it'll bounce back up pretty

04:38

high but it won't bounce all the way back up to where it started

04:42

part of that is due to gravity part of that is also due to entropy right before [Boy holding super ball]

04:48

the ball hits the ground it's got a lot of kinetic energy as it hits the ball [Boy drops super ball]

04:52

deforms a little creating elastic potential energy then it snaps back into

04:57

its original shape which is why it bounces back up into the air the ground [Ball bouncing back up into air]

05:02

also deforms a little bit too this deformation makes the molecules all

05:07

jumping so some of the kinetic energy as a ball is transferred into internal

05:11

energy of the ball and the ground internal energy means a higher

05:15

temperature and in fact if you had some thermometer keeping track of the super

05:19

ball you'd see it tick up just a little bit like one or two tenths of a degrees [Boy drops ball]

05:23

maybe the ground temperature would go up a teeny bit too since some of the

05:27

kinetic energy is converted into internal energy the ball loses some [Ball bouncing on the ground]

05:31

oomph on the bounce and you guessed it more chaos is created there's just no way around it

05:37

okay circling back how is entropy related to our first explanation of this

05:42

thermodynamics law remember we said that heat flows from the warmer system to the

05:47

cooler system think of it like this which is more orderly a block of ice or [Bowl of water and ice cubes appear]

05:52

a bowl of water it's the ice without a question molecules and a solid are

05:56

tightly aligned there's no molecular slipping and [Molecules vibrating rapidly]

05:59

sliding like you have in a liquid and in general a colder system has less chaos

06:04

than a warmer one the molecules are moving more slowly they're vibrating

06:08

less their little molecular shoes are neatly stacked up a hot system means [Molecules appear by hot and cold systems]

06:13

chaos galore molecules banging into each other electrons flying around

06:17

willy-nilly shoes never being put away uh-huh it makes me itch just thinking

06:22

about it entropy will always increase or stay the

06:24

same if heat flow out of the cooler system and into a [Ice cube appears in glass of soda]

06:28

warmer system that would mean the colder system would become more orderly that's

06:33

never going to happen another way to think about the second law of [Mustang car appears and girl opens the hood]

06:36

thermodynamics is to pop the hood on your car assuming you don't have an

06:39

all-electric car then your engine has piston which means it depends on heat [Pistons in engine turning]

06:43

which makes it well a heated and an internal combustion engine just like the

06:48

one in this car has Pistons a piston basically hangs out in a hollow cylinder [Piston diagram appears]

06:53

at the top of the cylinder the piston is like a plunger that creates a tight seal

06:57

to keep all the air inside so we've got gas inside the piston just hanging out [Gas molecules inside a piston]

07:02

doing a gas thing when suddenly a heat source appears this makes the molecules

07:07

in the gas get excited and less dense which creates pressure in the piston

07:10

which pushes the piston up which makes the gears of the engine turn which makes

07:14

the wheels turn and what do you know you're driving on the highway and a [Car driving on the highway]

07:18

sensible speed of course five miles under the speed limit is best okay so

07:21

the gas expands great job gas but if this process happens only once that's

07:26

not going to get you very far things have to cool down so the piston can sink

07:29

back down and the whole process can repeat it in a car [Combustion engine appears]

07:32

this happens hundreds of times a minute where does that heat go bingo out of the [Gas appears from out of tail pipe]

07:37

tailpipe any kind of heat engine has to be able to dump heat into what's called

07:41

a reservoir in this case reservoir doesn't need a big lake full of drinking [A giant reservoir appears]

07:46

water it means something big enough to be able to absorb all the heat that the

07:49

engine needs to get rid of in the case of a car that means the heat goes [Car engine starts and gas appears from tail pipe]

07:52

through the tailpipe and out into the atmosphere the atmosphere is big enough

07:56

that heat from a car doesn't have much effect on the overall temperature of

08:00

course when you have a bunch of cars with a bunch of pollution and greenhouse

08:03

gases well that's a topic for another much more depressing video with the [Gas appears from lots of cars on the highway]

08:08

Pistons going up and down we know that force is being applied and things are

08:12

moving which means work is being done but since

08:15

all the heat that's generated is dumped into the exhaust system this process [Piston moving up and down]

08:18

isn't 100% efficient and that brings us up to our third and final way of looking

08:23

at the second law of thermodynamics it's impossible for a heat engine to convert

08:28

heat completely into work without any other

08:31

effect in fact there's a nice and clean equation to go along with this idea the [Efficiency of heat engine equation appears]

08:35

efficiency of a heat engine that's what the epsilon stands for equals the work

08:40

done W divided by the heat that's input that's the Q sub H because heat can't be

08:47

totally converted into work, work will always be less than the heat input and

08:52

efficiency will always be less than one not everything in life is about cars you

08:56

know no matter what your one uncle who's obsessed with hot rods might say here's [Uncle stood beside smart car]

09:00

a basic diagram of how another type of heat engine works we've got a high

09:04

temperature reservoir on the one end that feeds into the engine which

09:07

partially converts the heat to work and it sends the excess heat that wasn't

09:11

converted down the line to the low temperature reservoir let's say this

09:14

engine does five thousand joules of work while producing nine thousand joules of

09:18

heat what's the efficiency of this bad boy we [Woman appears in room discussing heat efficiency]

09:21

just went over the equation for heat engine efficiency but let's make sure we

09:25

know how to actually use it there has to be a difference in temperature from the

09:28

heat source to the cold reservoir otherwise heat wouldn't flow and that

09:32

would leave us with an engine that did a whole lot of nothing

09:35

or maybe something worse than nothing kind of defeats the whole purpose of an

09:38

engine and according to our thermodynamic lawyer the engine doesn't [Lawyer points to second law of thermodynamics]

09:42

convert all of the heat into work so what's left over has to exit the system

09:46

so we've basically got two different kinds of heat here we've got the heat

09:50

that enters the system we call that Q sub H then we've got the heat that

09:54

leaves the system we'll make that Q sub L so what do we know in this situation [Woman discussing two different heats]

09:58

for one thing we know that the heat engine produces 9,000 joules of heat is

10:03

that the heat coming into the engine or leaving the engine that would be our new [Woman appears in room with a vacuum]

10:07

friend Q sub L since the engine is producing it and not taking it in this

10:12

9,000 joules is what the engine is dumping into the reservoir and then

10:16

we've got our five thousand joules of work of course our efficiency equation [Efficiency equation appears]

10:20

tells us that a heat engines efficiency equals the work produced over the heat

10:24

entering the engine we still don't know how much heat is coming in but it's not

10:29

too tricky to figure out after all we know that an engine is going to produce

10:32

two things work that's been converted from heat and heat not converted to work

10:36

so if we add these together we've got our starting heat which means that we can

10:41

rewrite our efficiency equation by swapping at the heat coming into the

10:45

engine for the heat leaving the engine plus the work done now we just have to [Equation appears with numbers]

10:49

pop in our numbers and we're all good five thousand joules divided by fourteen

10:53

thousand joules gives us an efficiency of thirty five point seven percent which

10:57

isn't great I certainly hold myself to a higher [Woman walks up to car with the hood popped]

11:00

standard than that but that's the way it goes with heat engines they're just not

11:04

that great with the whole efficiency thing now let's say we've got an engine

11:08

that takes in sixty four thousand five hundred joules of heat and gives up [Steam engine going by the road]

11:12

fifty three thousand nine hundred joules in exhaust

11:14

what's our efficiency here hmm our equation uses work and the heat input to

11:18

figure this out but we don't have work here that's okay though we can tackle

11:22

this in two different ways first we can find the work by subtracting the heat [Vehicle driving slowly down the road]

11:26

leaving from the heat entering that tells us how much heat was converted

11:30

into work in this case that comes to ten thousand six hundred joules divided that

11:35

by good old Q sub H and we've got an efficiency of 16.4% I mean impressive

11:42

the other way to figure this out is to start with one if an engine was 100

11:47

percent efficient the work would equal the heat coming in so this ratio would

11:51

equal one from that we can subtract the result of the heat leaving the system

11:54

divided by the heat coming in so one minus fifty two thousand nine hundred

11:58

joules over sixty four thousand five hundred joules gives us sixteen point

12:02

four percent efficiency see like the old saying goes there is more than one way [Woman uses flamethrower on stove]

12:06

to clean a stove and of course we always need to remember

12:09

that as a result of all this inefficiency and heat dumping more [Molecules coming out of tail pipe]

12:13

entropy is introduced into the universe there's no getting away from that which

12:17

is why I hate this stupid second law why can't we just make things more orderly

12:22

wouldn't that make the universe a better place no one actually likes chaos do they? [Woman cleaning room]

12:26

everything moving around going crazy no one important many rules people just

12:31

doing whatever they want leaving whatever they want not caring

12:34

about anything joggers in the street there are toilets to be [Woman walks into toilets]

12:38

cleaned young man sometimes I swear I'm the only one who cares about order in

12:42

the universe

Related Videos

Jane Eyre Summary
123033 Views

When you're about to marry the love of your life, not many things could stop you. However, finding out that your future hubby is keeping his crazy...

What is Shmoop?
91405 Views

Here at Shmoop, we work for kids, not just the bottom line. Founded by David Siminoff and his wife Ellen Siminoff, Shmoop was originally conceived...

ACT Math 4.5 Elementary Algebra
492 Views

ACT Math: Elementary Algebra Drill 4, Problem 5. What is the solution to the problem shown?

AP English Literature and Composition 1.1 Passage Drill 1
1039 Views

AP® English Literature and Composition Passage Drill 1, Problem 1. Which literary device is used in lines 31 to 37?

AP English Literature and Composition 1.1 Passage Drill 2
683 Views

AP® English Literature and Composition Passage Drill 2, Problem 1. What claim does Bacon make that contradicts the maxim "Whatsoever is delig...