Yes. By removing the variable of air resistance (and assuming there isn’t any other outside interference like magnetism and etc) then the only force acting on the objects is gravity. Gravity pulls at a constant rate of acceleration. Now if the mass of the two objects are different than the **force** of gravity will be different, but objects with more mass are more resistant to accelerate, so with gravity alone, even objects of different mass fall at the same rate.
@@brendandecicio4877 There’s no such thing as the “force of gravity”. Gravity acts on every object exactly the same no matter what. There’s no resistance to acceleration in a vacuum, and the reason objects of different mass fall at the same rate in a vacuum is, again, because gravity is a constant and attracts every object at a constant rate no matter what. Now, on Earth, air resistance causes drag on small, high surface area objects, which slows them down, but the attraction of gravity is still constant.
@@John-Perry true, I guess I was still using Newton’s law which has been superseded, and the formula of Newton’s “gravitational force” still gives really accurate approximations
Basically in a vacuum there is no air and only air resistance can slow things down when falling so if you did it on a real vacuum they fall on the same speed. The reason I think his method became right is because the candy wrap compressed or the two holes on the wrapper was closed and the air inside the wrapper was released.
and then there's me wondering how the vacuum can stay depressurized when there's a big opening at the top for someone to put their hands in (don't worry i figured it out on the second rewatch)
Air drag is significant on the candy wrapper, and it isn't for the bottle cap. So if you make it fall a whole meter, the candy wrapper will take longer in ordinary air, and you'd need to remove the air to make the candy wrapper fall as fast as the cap. The distance here isn't enough to make a difference, so it doesn't matter if it's in a vacuum cleaner's tank or not. The vacuum cleaner isn't even turned on or closed, so it's not really in a vacuum.
He got us all in the first half 😂
true true
Yeah lmao
When you get the right answer but with the wrong method
His math teacher would give him detention even though this isn’t math
@@AverageLlama_Guy he didn't show his work lol 😆
So true😂
@@JTheMan1 he did but not how the teacher said to
@@bluedude-dm6dk 😂
as a candy wrapper I can confirm that me and the bottle cap fall at the same speed
As a bottle cap I have to disagree I’m actually faster by 0.01 of a second
as a vacuum i can confirm that you both fell at the same speed
What happened to your Minecraft let’s plays?
Fake news. Paid actor
did you know that the candy wrapper came from china lol
Last minute science project be like:
Underrated comment lmao
I laughed way too hard at this.
*Bro got space-shuttle in his house ngl* 💀
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I'm disappointed in myself for how long it took me to understand
Same tbh
Same
Same
I still don’t understand
@@Sergeantbrick he dropped things in a vacuum
Well, I didn't see that coming
🤣 legit thought he was going to properly do the experiment!! But that's fkn hilarious!!!
I'm Amazed and ecstatic that White Rabbits was the candy you chose I hear no one talk about them but they're great
Who else recognises the candy wrapper 🙋🏽♀️
大白兔
white rabbit
@_yeet its rice not plastic if you didn.t know
but seriously do 2 objects drop at the same speed in a vacuum
Yes
Yes.
By removing the variable of air resistance (and assuming there isn’t any other outside interference like magnetism and etc) then the only force acting on the objects is gravity. Gravity pulls at a constant rate of acceleration.
Now if the mass of the two objects are different than the **force** of gravity will be different, but objects with more mass are more resistant to accelerate, so with gravity alone, even objects of different mass fall at the same rate.
Is true
@@brendandecicio4877 There’s no such thing as the “force of gravity”.
Gravity acts on every object exactly the same no matter what. There’s no resistance to acceleration in a vacuum, and the reason objects of different mass fall at the same rate in a vacuum is, again, because gravity is a constant and attracts every object at a constant rate no matter what.
Now, on Earth, air resistance causes drag on small, high surface area objects, which slows them down, but the attraction of gravity is still constant.
@@John-Perry true, I guess I was still using Newton’s law which has been superseded, and the formula of Newton’s “gravitational force” still gives really accurate approximations
White rabbit interesting 🤔
Basically in a vacuum there is no air and only air resistance can slow things down when falling so if you did it on a real vacuum they fall on the same speed. The reason I think his method became right is because the candy wrap compressed or the two holes on the wrapper was closed and the air inside the wrapper was released.
Absolutely stunning experiment
Bro got the right answer from the wrong solution
My science teacher needs to see this
I always thought they dropped the vaccum 0_0
Literally a lol moment. I need more content like this!
as a bottle cap i can confirm that me and quandaledingleson fell at the same time
bro you dont know what white rabbit is??
i submitted this for a history assignment and I'm pretty sure my Spanish teacher is mad i forgot to carry the 12
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and then there's me wondering how the vacuum can stay depressurized when there's a big opening at the top for someone to put their hands in (don't worry i figured it out on the second rewatch)
Oh I love the white rabbit candies they’re so good!!!!!
Brain.exe has stopped responding
Your smart
Plot twist: he lives on the moon
…..well played
I am eating that candy rn 💀
This how I imagined it when I was a child.
Lol
Nahh, that wrapper be capping😭
That's it.. I love you, bro.
Quiet but angry noises😶
It took me an embarrassingly long time to realize
Well he ain't wrong
YOOO WHITE RABBIT CANDY??
Bro a vacuum is covered lol
Wooosh
Wow that is amazing 😂
Bruh!! 💀
Why is the candy wrapper a white rabbit candy one? (Da bai tu?!)
Drop a textbook with a piece of paper on it
Oh man, it took me a minute to get it
The paper hit first then the cap
because its taller
Wooosh
Bro I just realized I feel so stupid…
Oh white rabbit
Good one 😂
SCIENCE!!! 😅
That was quick lol
Oh you trick little trickster.
In a vacuum chamber
You bastard lmao
Take my like
Bro is proofing 5th grade level facts like we are bunch of little kids.
Wooosh
Now what would happen if we had a vacuum in space?
it would float
@@afteer No way
@@afteer no fucking shit dude
@@cerrigate ikr shocking discovery
When you don't know anything about physics its like this
this is so dumb im cackling.
Thank you
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Love it
Ayo what’s that candy?? I’ve eaten it at my aunts house and I’ve been trying to find that candy ever since, it’s milk flavored
Got one comment asking this! It’s white rabbit creamy candy😊
am in serious pain...
i don't
think
As a bottle wrapper, I can confirm me and a candy cap fall at the same speed.
the
WHAT
BOTTLE WRAPPER??
Candy wrapper
Bro, it’s not just a vacuum it’s anywhere
It's a little early for any April Fools joke.
I’m pretty sure it’s called a joke
A piece of tungsten the size of a golf ball weighs around 5-7 pounds and a feather weighs nothing I think the feather is falling last
Feathers do have weight. And if you were to melt them down, they'd be as solid as a horse hoof, and sink in water.
true but not inside a vaccum. this video was a joke but if theres no air resistance then the feather is gunna fall just as fast.
That’s what it meant
PhaKtis KorreKticus
LMAOO
Hes not wrong
Drop them outside the vacuum now
wait r u asian?? i love white rabbit candy but it’s not really known among non asians
It’s as real as that twitter checkmark he showed
Wooosh
that-
NO WAY THIS GUY KNOWS WHITE RABBIT
the inside wrapper is amazing
Can’t believe its almost been a year since we met our pal the fruit punch clown
Wow the video is too long 😜
Ugggggghhhhhhh noooooo
I mean yes
Wrong type of vacuum
Wooosh
But why only in a vacuum?
Air drag is significant on the candy wrapper, and it isn't for the bottle cap. So if you make it fall a whole meter, the candy wrapper will take longer in ordinary air, and you'd need to remove the air to make the candy wrapper fall as fast as the cap.
The distance here isn't enough to make a difference, so it doesn't matter if it's in a vacuum cleaner's tank or not. The vacuum cleaner isn't even turned on or closed, so it's not really in a vacuum.
How?
How there can be vacuum in the machine after opening the lid to drop the objects 😮
Wait what
Bro
Lmao
Lmfao
HA
Wha-
Bahaha
lmao!
😂
LOL
Bruh
Lol
😢
So silly.
KEKW
💀💀💀
Ha lol