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Physics Videos 34 videos

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Physics: Weight Vs. Mass 23 Views


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Description:

Check out this weighty video on weight versus mass.

Language:
English Language
Subjects:

Transcript

00:02

wait V mass why go on a diet when you could go to the moon okay ladies and

00:33

gentlemen we're here today to talk about a new revolutionary diet plan that is [People working out]

00:36

sweeping the nation want to take some pressure off of those aching joints well

00:40

this new plan is the answer you've been looking for you can eat whatever you

00:44

want and there's no exercise required all you have to do is go to the moon now

00:49

you might be asking yourself why do we weigh less on the moon while the answer [Astronaut floating on space station]

00:53

gravity the moon is less massive than the earth so the pull of gravity is

00:57

weaker but our mass hasn't changed a bit we're still made up of the same amount

01:02

of stuff the difference between weight and mass can be a little confusing so

01:06

even though weight versus mass isn't the usual topic of a weight loss infomercial [Man wheeling a whiteboard]

01:11

now let's talk about it anyway in day-to-day life we think of mass and

01:15

weight interchangeably if you go to the doctor's office they don't ask you how [Woman appears in doctors office for weight check]

01:19

much mass you contain no they put you on a scale and you get your weight end of

01:23

story but weight and mass are very different

01:25

things biggest difference while weight depends on gravity mass does not mass is

01:31

measured in units of pounds or kilograms weight will call you the folks in charge

01:35

of SI units weight is measured in Newtons but good luck finding a scale [Man stood on a scale]

01:40

that'll tell you your weight in Newton no we'll take a much closer look at the

01:45

universal law of gravitation some other time but let's just be clear on the

01:48

basics the force of gravity is dependent on two things the masses of the objects

01:53

attracted by gravity and the distance between them increase the masses and you

01:59

increase the attraction of gravity on the other hand if you increase the

02:04

distance between the objects you'll decrease gravity's pulled between the

02:09

objects got it so while absence may make the heart grow [Planets collide]

02:12

fonder distance will make gravity's effect weaker gravity is also why

02:18

astronauts float around in the Space Station or lack of gravity it's not the [Astronauts floating]

02:22

force of gravity isn't acting on the astronauts in fact they're in freefall

02:25

the whole space station is in freefall but its horizontal velocity is so fast [Spacestation orbiting earth]

02:31

that as the earth pulls it toward the planets center the space station is able

02:35

to use that downward pull to maintain its horizontal motion and it needs a

02:41

whole lot of velocity to maintain its orbit the space station is traveling at

02:45

about 17,000 miles an hour which means it travels all the way around the earth

02:49

about 16 times in a 24-hour span so instead of falling down to the planet's [Space station travelling around Earth]

02:54

surface it's falling around the planet well the space station is only about 250

03:00

kilometers off the ground if that distance gravity hasn't changed all that [Man performing star jumps]

03:03

much but the astronauts are weightless because they're falling at the same

03:07

speed as the whole space station think of it like this have you ever ridden a [People sitting on a rollercoaster]

03:12

roller coaster well when you're at the top of the first big hill everything

03:16

feels normal except for maybe your bladder but as you start to go down that

03:21

hill it feels like you're floating you feel yourself pushing up against the [Rollercoaster pushes downwards]

03:25

harness and you feel like you're coming off of your

03:29

well the rollercoaster car and the seat you're sitting on is falling at the same

03:33

rate you are remember normal force occurs when an object's weight like that

03:38

of your toughest deforms a solid surface like a roller coaster seat but if that

03:43

roller coaster seat is also in freefall then you're not going to be deforming [Rollercoaster begins freefall]

03:48

its surface and without feeling that pushback from the seat it feels like

03:51

you're floating so the space station is in freefall and everything in the space

03:56

station is also in freefall which means that there's no normal force to [People working out in class]

04:01

counteract gravity everything's moving the same speed which allows everything

04:04

to float or here's another way to think about it

04:08

imagine you go skydiving everything is great [Plane flying]

04:12

you jump out of the plane fall for a while then pull the cord for your [Man jumps out of plane]

04:16

parachute only someone has pulled a wacky prank on you n instead of a

04:19

parachute a bathroom scale pops out that must bend your buddy Quentin flood a

04:23

prankster well as you're plummeting towards certain doom you decide you [Man with scales in midair]

04:27

might as well see how much you weigh so you put the scale on your feet and try

04:32

to see what it says but because you're not putting any force on the scale it

04:36

won't register any weight at all so you have a good chuckle at another fine [Person laughing in freefall]

04:41

joint like Clint while the space station is only 200 kilometers above the planet

04:45

the moon is about three hundred eighty four thousand four hundred kilometers

04:48

away and way further even at that distance though the gravity of Earth is [Moon orbiting Earth]

04:53

still strong enough to keep the moon in orbit but if you're walking on the moon

04:57

its gravity is what will be affecting you since you're right on its surface [Astronaut bouncing on the moon]

05:01

well the moon is much less massive than the earth but the moon's mass is about

05:06

1.2 percent of the Earth's mass which is why everything weighs way less up there

05:11

and there's less matter to create gravity and for just three easy payments [Astronaut with bag of cash appears]

05:16

of 50 million dollars you too can watch those pounds disappear like magic but

05:21

like I said mass doesn't depend on gravity which makes sense just because

05:24

gravity changes that doesn't mean that what we're made of

05:28

different even on the moon we're still the same humble incredibly smart and [Astronaut picks up mirror on the moon]

05:31

attractive people we've always been and Newton's first and second laws are all

05:35

about mass not weight well part of the first law is that the more mass an

05:40

object has the more inertia it has as well meaning it's harder to change its

05:47

motion and the second law says that the force equals mass times acceleration so

05:52

if it takes 10 Newtons to make a cat accelerate at 1 meter per second squared [Cat accelerating]

05:58

it would take 20 Newton's to make a cat with twice the mass accelerate at the

06:04

same rate now in those SI units we mentioned before the standard unit of

06:08

mass is the kilogram why not the gram we don't know go ask

06:12

some old French scientists and see what they can tell you in French there's [French scientist appears in the street]

06:15

actually some logic to it though a cubic centimeter of water has exactly one gram

06:20

of mass it's also known as a milliliter a thousand grams equals one kilogram and

06:27

a thousand milliliters equals one liter so there's a rhyme and a reason there [Man puts hat on]

06:31

somewhere of course while Pierre and jean-luc were deciding to use the

06:35

kilogram here in the u.s. we decided to just keep on using pounds and ounces and

06:40

not play soccer why because we just have to be different that's why America is

06:45

kind of a hipster when it comes to units of measurement both kilograms and pounds [Hipster girl appears]

06:48

are units of mass we know we know it sounds weird to say I have 130 pounds of

06:53

mass or whatever but the statement would technically be correct we know how to [Man picking up heavy barbell]

06:58

figure out how much something weighs at least here on earth we just pull out a

07:01

scale but what do we use to figure out mass well the best tool for that job is [Man appears in a kitchen]

07:06

a balance like a triple beam balance or you can use a balance that has two sides

07:11

like this double pan balance it's kind of like a sciencv seesaw and then we

07:16

could put something with a known mass on one side and find where it balances with [Man puts 1kg weight on side of balance and head of lettuce on the other]

07:20

something that has unknown mass there's a formula to calculate weight that

07:26

formula tells us that the force of gravity on an object equals the mass

07:30

times the acceleration of gravity it looks a lot like our good ol force

07:34

equals mass times acceleration formula because well they're pretty much this

07:39

we're just swapping out the generic acceleration for the specific

07:43

acceleration of gravity and you might also see F sub G swapped out for a W ie

07:48

wait don't sweat it it's the same thing so [Man standing at table with a scale]

07:51

yeah we measure weight using a scale the scale has Springs that are calibrated

07:55

specifically for Earth's gravity unless you somehow got a hold of a Martian

07:59

scale but nASA says we're not allowed to talk about those all right well you know [Martians jump on a scale]

08:03

the routine you put something on a scale and some kind of readout lets you know

08:07

how much the thing weighs but again all this measuring is being done in units of

08:11

mass what on earth or off of Earth for that matter is a Newton well a Newton is

08:17

a derived SI unit it's not one of the originals one of the big seven it's made

08:22

up of other SI units that come together to form a whole new thing [SI units collide]

08:26

well the Newton is made up of kilograms times meters over seconds squared

08:31

remember force equals mass times acceleration so a Newton which is a unit

08:36

to measure force is just made up of the standard units used to measure mass and

08:40

acceleration so say our cat Milo has a mass of 10 kilograms mostly muscle since [Milo appears from kitty house]

08:47

Milo is most definitely an Earthbound cat we can rely on our standard

08:51

acceleration of gravity to figure out his weight in Newtons 10 kilograms times

08:56

9.8 meters per second squared equals 98 Newtons but just for kicks let's say

09:01

Milo should you know maybe lose some weight well sure we can put him on that [Milo puts on head band and runs on treadmill]

09:06

low-calorie food and see if we can get him exercising again but it would be a

09:10

lot more fun to get him to the moon tada one small step for cat one giant [Milo in rocket to the moon]

09:18

leap for cat kind or something like that well on the moon the acceleration of [Cat walking on the moon]

09:23

gravity is 1.62 meters per second square which means Milo now weighs just about

09:28

16 Newtons if you wanted to convert that measurement to units we'd actually use

09:33

on our home planet while one Newton equals 0.2 to for 809 pounds of force

09:40

which means in terms of earth weight Milo has gone from 22 pounds all the way [Milo walking on the moon]

09:44

down to two point seven pounds but while the scale may tell us he

09:48

weighs less we can see just by looking at him that he hasn't lost any mass so [Milo bounces on the moon]

09:52

he's still 10 kilos in that well this difference in units can get confusing

09:57

which is why it's best to stick to Newtons

09:59

when we're talking about weight at least in the physics world but what happens if [Aliens beam up Milo]

10:03

aliens come along and decide they want a cat on their planet so they take poor

10:07

Milo across the galaxy to wherever they're from let's call it planet steve [Alien spacecraft lands on planet Steve]

10:12

and oddly enough on planet Steve they also use pounds when weighing something

10:17

so when our aliens gleep glorp here to take Milo to the alien veterinarian they [Aliens holding Milo]

10:22

find out that Milo weighs 53 pounds oh well don't worry about it you still

10:28

carry it well and let's face it you weren't the most active cat anyway well

10:32

assuming he didn't lose any mass on his space journey what's the force of

10:36

gravity on planet Steve well boy this whole send the cat to the moon thing [Man puts up lost cat poster]

10:40

that sure has taken a turn let's figure out the gravity here and then we can

10:44

figure out how to get Milo home safe and sound so we know Milo's mass is 10

10:49

kilograms and its weight is 53 pounds how do we find the force of gravity all

10:54

right well remember weight equals mass times gravity so we can rearrange this [Equations appear]

10:58

equation to solve for G but first we need that weight to be in the form of

11:02

Newtons so a little conversion is in order one

11:06

Newton equals point two two four eight oh nine pounds of force or to put it

11:09

another way there is point two two ish pounds for each Newton so if we divide

11:13

53 pounds by that number we find that Milo weighs about 231 Newtons [Milo's weight in Newtons appear]

11:18

now we have what we need to find the force of gravity 231 Newton's of force

11:22

equals 10 grams times G we divide each side of the

11:25

equation by ten kilograms to find that on planet Steve Milo has a gravitational [Milo walking around]

11:30

acceleration of 23 point one meters per second squared which is a whole ton of

11:35

gravity come on Milo let's get you home you're barely functional in Earth's

11:39

gravity well it's important to understand that Newton's our unit of

11:42

force and of weight that's because weight is a force generated by

11:46

gravitational attraction so when we say that we weigh 600 Newtons what we really

11:52

mean is that the gravity of Earth is acting on us to create a force of 600

11:57

Newtons after all weight has to be generated somehow since it's not an

12:02

inherent property of matter it's really a measure of how one object's mass [Earth appears]

12:06

interacts with another object in a gravitational field okay so maybe our

12:11

moon based weight loss plan isn't a great idea after all for it to work [Man discussing moon based weight loss plan]

12:14

long-term we'd have to stay on the moon forever otherwise when you come back to

12:17

earth all those pounds are right back where they started and who wants to live

12:21

on the moon not us all our friends are here plus there really no decent

12:25

restaurants up here [Man standing in hotel room]

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