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: Introduction to Momentum 31 Views


Share It!


Description:

Momentum is a way of measuring the inertia of a moving object, and can be thought of as "amount of movement."

Language:
English Language
Subjects:

Transcript

00:01

No hello mo mentum an introduction that might knock you

00:07

on your feet that momentum anyway Double espresso physics Who

00:12

wrote this thing All right The math A momentum of

00:15

their p equals We got you to come every right

00:23

Conservation of momentum All right here we go Well a

00:29

lot of people think that football is all about violence

00:32

and those people Well they're not wrong Look the whole

00:35

sport is about guys crashing into each other And you

00:38

know what Sometimes it feels really good to land a

00:41

nice clean tackle as long as you're the tackler not

00:45

the tackle but football players aren't just big dumb brutes

00:49

A lot of us are really smart Well some of

00:52

us till we get hit in the head enough smart

00:54

enough to know that this game is all about real

00:56

world physics All right like when i sack a quarterback

01:00

Yeah well what's really happening is that i'm building up

01:02

momentum as i run And then i transfer some of

01:05

that moment um to be but what is all this

01:08

moment Um anyway well you probably have an intuitive understanding

01:11

of momentum after all You know if a friend tosses

01:14

you a golf ball it's not going to be too

01:16

hard to catch if he tosses you a bowling ball

01:18

in a different story But physicists know better than to

01:22

just rely on intuition And relying on intuition is for

01:25

english majors Not that there's Anything wrong with being an

01:28

english major Of course So what is momentum in physics

01:32

terms Momentum is the amount of movement and object has

01:36

which feels weird We don't usually say boy look at

01:39

that cargo It sure has a lot of moment Um

01:43

momentum is related to inertia Remember inertia It's quite a

01:47

newton's first law of motion one that says an object

01:50

at rest tends to stay at rest and an object

01:53

in motion tends to stay in motion so what's an

01:56

object is emotional Keep on keeping on and awesome type

02:00

of force changes that motion well that force khun b

02:03

anything friction gravity my shoulder pads whatever And the more

02:07

momentum and object has the more forces required to change

02:10

that objects motion So let's go back the golf ball

02:13

versus the bowling ball Like we said everybody generally toss

02:16

you a golf ball Easy catch but there's no such

02:19

thing as a gently toss the ball because the bowling

02:21

ball has more momentum it's harder to stop its motion

02:25

What if your friend really whips that golf ball Actually

02:27

well it's going to be pretty hard to catch then

02:29

and painful to hit you because a golf ball that's

02:32

thrown faster has more momenta mme than one that's moving

02:36

slowly man she's got a good arm maybe she could

02:39

be our backup q b so mo mentum involves both

02:42

velocity and mass In fact that's the whole equation for

02:45

mo mentum mo mentum equals mass times velocity go inside

02:52

now don't get confused with that lower case p there

02:55

in the equation Yes momentum doesn't have the letter p

02:59

anywhere in it but scientists used to use the latin

03:02

for everything And the letter p was used in one

03:05

of the original roots of the word mp tests which

03:09

relates to mo mentum So you know just go with

03:11

b o and don't get it confused with uppercase pete

03:14

that stands for power and then there's row which looks

03:18

an awful lot like the letter p but it isn't

03:22

rowe is the symbol used for density Yes sometimes all

03:25

these abbreviations just make things more complicated But let's get

03:28

back the equation Since momentum is made up of mass

03:31

and velocity it's based units are kilograms times meters over

03:34

seconds which looks a lot like the base units for

03:37

newton's remember and newton is it derived unit made up

03:40

of kilograms times meters over second squared Pretty similar huh

03:44

Well just one little superscript two that sets them apart

03:48

But that itty bitty two is pretty important Newton's our

03:51

unit of force and force equals mass times Acceleration and

03:55

acceleration is measured in meters per second squared Well momenta

03:59

muses velocity not acceleration So make sure you don't get

04:03

confused and mix up your mo mentum with your newton's

04:06

bad things will happen not bad is in the end

04:09

of the world That is in getting the test question

04:11

wrong which can sometimes feel like the end of the

04:13

world have been there Well one of the components of

04:16

momentum is velocity which is a vector quantity meaning it

04:21

has both a magnitude and direction because one of its

04:24

parts is a vector That means mo mentum is a

04:27

defector too And it's really important that it is back

04:30

when smarty pants people like rene day card were working

04:33

to understand mo mentum Well they had a hard time

04:36

with something See in a closed system there can't be

04:39

any change in the total momentum within the system which

04:42

means that if you have two objects each with a

04:44

momentum of five kilogram meters per second The total momentum

04:47

is ten kilogram meters per second If those objects interact

04:51

with each other well then the total mo mentum after

04:53

the interaction is still ten kilogram meters per second But

04:57

if you have two bowling balls each with the same

04:59

mass and velocity going in opposite directions and they crash

05:04

into each other well you're going to end up with

05:06

total momentum of zero and a really bad score in

05:09

bowling momentum has to be conserved It can't just disappear

05:13

The refs will definitely throw a flag if it does

05:15

But this dutch dude christian huygens pointed out that if

05:20

you set one direction is positive and the other is

05:22

negative than everything works out just fine mathematically if you

05:26

have one bowling ball with the momentum of five kilogram

05:28

meters per second and the other with mo mentum of

05:31

negative five kilogram meters per second Well known your total

05:35

initial mo mentum is zero after they crash they'll still

05:39

zero No momentum has gained and none is lost and

05:42

loss of physics prevail As always Of course in the

05:46

real world we're not in a lot of closed systems

05:49

If i get the interception and head for the end

05:51

zone all have a lot of momentum And if someone

05:54

on the sidelines enters into this closed system and trips

05:56

meanwhile all that mo mentum will be transferred into the

05:58

ground two yards short of scoring out Well that's a

06:03

case where something or someone enters into a closed system

06:05

changing its internal workings But for now at least we're

06:08

not gonna worry about some jerk tripping us up We're

06:11

going to work with situations where mo mentum will be

06:14

conserved within the system We've looked formula for mo mentum

06:18

already Now let's look at the formula for total mo

06:21

mentum When we have two or more objects interacting with

06:24

each other it might look a little frightening at first

06:26

But it's not as rough as it looks with this

06:28

equation means in english is that the sum of mo

06:31

mentum for all objects is the same before and after

06:35

any interaction between the objects We can rewrite it toe

06:38

look a little better like this Yeah while this equation

06:42

says the some of the initial momentum is equal to

06:45

the sum of the final moment um how does that

06:47

work in the real world Well let's say that the

06:49

quarterback standing still looking for an open receiver then i

06:52

come along from the blind side and sack the heck

06:55

out of them I've got a massive one hundred kilograms

06:57

and i'm moving in about ten meters a second Well

07:00

the initial mo mentum will equal the cubes mo mentum

07:03

plus mine since quarterback is standing still his momentum's zero

07:07

regardless of how much mass he has But we'll say

07:10

he has a mass of eighty kilograms Those puny quarterback

07:14

as for me my mo mentum will equal one hundred

07:16

kilograms times ten meters per second or a thousand kilogram

07:20

meters per second and the initial total momentum is the

07:24

same So now once i hit him will basically act

07:26

as one object and our combined mass will be one

07:29

hundred eighty kilograms But our total mo mentum would still

07:32

have to be a thousand kilogram meters a second which

07:35

means the velocity would have to slow way way down

07:38

In fact it would slow down to almost half five

07:42

point six meters per seconds to be exact Yeah when

07:45

i collide with hubie i transfer some of my initial

07:48

mo mentum to him so the total momentum remains the

07:50

same Now while this game of football's going on that

07:54

doesn't mean i'm not taking care of things at home

07:56

In fact thanks to modern technology i'm vacuuming my floors

08:00

as well Speak thanks to my last contract extension i

08:03

was able to buy a top of the line Roomba

08:06

well first my cat princess flutter bottom wasn't down with

08:11

this machine but now she hops on for a ride

08:14

Princess has a mass of four kilograms and the roomba

08:17

has a mass of three point five if they're traveling

08:20

at zero point two meters a second to the southwest

08:23

what's the total mo mentum ah cats and room bozz

08:27

They share a connection as all this time and i

08:30

can waste hours of time watching videos of them together

08:33

Well we have separate objects here is much as it

08:35

hurts to call princess and on the way but we

08:38

can think of them as one combined mass after all

08:41

since the cat is riding on the robotic vacuum cleaner

08:43

And while they have the same velocity vector our equation

08:47

is p e Equals m times v the combined mass

08:50

is seven point five kilograms When we multiply that by

08:53

point two meters per second we find a mo mentum

08:56

of one point five kilogram meters per second But this

09:00

is a vector quantity so we need to include that

09:03

direction The official answer One point five kilometers per second

09:07

to the southwest Good kitty Now on my days off

09:13

from football i liked to sit in the backyard and

09:14

relax with family because sitting is about all i'm capable

09:18

of after a big game my nephew is planning on

09:20

being the next tony hawk So he's always on a

09:22

skateboard Of course he's Only three So he's not going

09:25

to be doing a three Sixty anytime soon We hope

09:29

he skates from left right and covers one hundred twenty

09:31

meters in nine seconds If he and the skateboard of

09:33

a combined momentum of two hundred twelve kilogram meters per

09:36

second skateboard has a mass of one kilogram what's the

09:39

mass of my nephew Okay nothing we can't handle here

09:43

after all way Have our handy dandy mo mentum equation

09:46

p equals m times v We've got our p we're

09:49

trying to find em we don't have our vey well

09:52

but we can figure it out real quick velocity is

09:55

displacement over time and our displacements one hundred twenty meters

09:58

and it took nine seconds to roll that far That

10:01

comes to about thirteen point three meters per second Now

10:04

it can plug those numbers into our equations First let's

10:06

re arrange it so we're solving for mass If momentum

10:10

equals mass times velocity than mass equals momentum divided by

10:13

velocity So we divide two hundred twelve kilogram meters per

10:16

second by thirteen point three meters per second and find

10:19

a mass of fifteen point Nine kilograms See how nicely

10:23

those units all cancel out leaving us with kilograms real

10:27

nice but is that it Well not quite We're trying

10:29

to find the kid's mass not the total mass way

10:33

need to subtract the skateboard which has a mass of

10:36

one kilogram leaving us with fourteen point nine kilograms which

10:40

rounds the fifteen used the right amount of sick figs

10:43

there Well hopefully you've built up a lot of momentum

10:45

learning all this physics stuff Once you get started it

10:48

can be hard to stop Sometimes Just remember that this

10:50

starting mo mentum Within a closed system always equals the

10:53

final moment Um and if we're dealing with more than

10:56

one object when we have to add up all the

10:58

mo mentum from the objects it's Time to cut this

11:01

lesson short Turns out coach isn't too happy that i've 00:11:04.782 --> [endTime] spent most of this quarter talking about momentum

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?
91404 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...