Jake! Jake! Jake, where are you? Oh hello…Vsauce, I’m Paul. How ya doin? What a surprise! I wasn’t expecting
you so soon. You’re probably wondering where Jake is right? Well this is awkward, I think maybe I shrunk him. Don’t worry, I’m sure we’ll find him and it’s not like
shrinking down to the size of an ant can be bad thing…right? Ya know, describing things is usually Jake’s department but I do wonder... What Would Happen if You Were Shrunk? Oh Vsauce, you found me. Thank goodness because
being reduced in size to half an inch tall is pretty bad for you. If you were to be scaled
down to such a degree there are a few directions it might go. Let’s suppose that only your
size would change but your mass, the amount of matter you’re made of, stays the same.
Which would mean that you’d be dense…about 150,000 times more than the densest material
we’ve ever found on Earth, Osmium. Being that dense would be a massive problem. With
your ant-sized proportions, you’d be exerting all that weight over the same area as just
1 pixel on the display you’re currently looking at. Hello! Only materials like diamond
or carbon fiber could sustain such pressures without cracking due to your presence. In fact, your density is on scale with a white
dwarf, a star that’s used up all its Hydrogen and collapsed in on itself due to gravity.
Imagine the entire mass of the Sun fitting into something as relatively small as the
Earth. What? What? He's too small. I can't hear what he's saying. Really, I can't even read his lips. What are you saying? We can't...repeat what you just said...nope...no, I can't tell. But your voice is so high pitched and cute. I love it. Say it again just for my entertainment It’s not my fault, Paul! At this size your vocal
tract would be very small so the vibrations would have much smaller wavelengths. Typical
male voices have frequencies of 85-180 Hz but a shrunken man would talk at higher frequencies
of 12-26 kHz. Since that’s at the top end of the spectrum you wouldn’t even hear most
of the words, in fact, digital audio for video can't contain any frequencies above 24khz
due to the Nyquist limit. If I stay between 12 and 24 kHz it would sound something like
this. The human ear can hear frequencies between roughly 20Hz and 20kHz. If parts of what I
am saying seem to be missing, it’s just that you can’t hear them. All very interesting but this is us speculating
that your mass would stay constant while being shrunk. If that were the case, none of this
would matter because your body would be crushed by the inability to support your entire weight. Soooo let’s go try the other second option. If our mass scaled proportionally with our
body we’d weigh 0.03 grams, that’s about the weight of 10 snowflakes. As you can imagine
even a slight breeze of 8.5mph, about the same speed of a full size human exhaling,
could whisk you away. A sneeze would be even more damaging at 100mph. However, you might
be able to outrun it. If we were able to scale ants up to human
proportions they’d be cruising around at 52mph. In fact almost all micro-sized creatures
would be moving really fast. The fastest recorded animal relative to its size is Paratarsotomus
macropalpis, a sesame-seed-sized mite. It travels at 322 body lengths per second, the
equivalent of a human running at 1,300 mph. And now that you are the size of insect you’d
be faster as well thanks to the Froude Number. The Froude Number is equal to the centripetal
force involved to make your legs swing, divided by the gravitational force on your legs. So
by shrinking yourself down and keeping your Froude number fixed, you’d actually take
12 times more steps than if you were full sized. Add to the fact your strides would
be 66% bigger, you’d be 20 times faster than normal. I should probably figure out a way to bring
Jake to regular size but this is just so fun. You're so fast, Jake. Running around like a bug. Run, Jake! Run! One thing that could slow you down is water.
At our ant scale fluids act 21,000 times thicker than we’re used to – it’d be like trying
to swim through chocolate syrup…but less delicious. The good news is that you’d be
able to walk on water. It’s surface tension would be able to support you without breaking.
Ants do this all the time and also form tightly knit rafts to carry themselves across rivers.
As long as the surface tension doesn’t break, you won’t suffer a slow horrible watery
death. Let’s go back to your increased speed and
energy because it comes at a cost. Your metabolism would be ridiculous. To keep up with how quickly
you move and the fact that the surface area of your body is relatively much larger than
your actual body you’d be losing a lot of heart, so you’d have to eat...a lot...like
every hour of every day. Your likelihood of survival isn’t great. But wait...I think
I have an idea about how I can get back to normal size, HEY PAUL! *sneezes* Jake? Jake?! Oh...Oh, Jake I am so sorry. Oh, I'm so sorry. Let me just get you off the lens. Oh..oh no. Jake...I'm just gonna go, OK? Um, but as always, thanks for watching. for watching.
Yeah but what would happen if you shrunk Paul Rudd? Would it be like this?
One thing I'm surprised he didn't mention, that I remember my high school physics teacher talking about, was breathing. At our normal size we are used to breathing at a certain rate. Shrink us down and we now need to breath much faster for our new size (similar principal to his Metabolism theory). Essentially, there is a high chance we would just suffocate after being shrunk down.
Man that vibration sound they played genuinely felt like my phone was vibrating.
Vsauce + MCU including Paul Rudd? It doesn't get much better than this...
If you haven't yet read it I highly recommend "Micro" by Michael Crichton. wonky shrinking pseudo science aside, it goes into a lot of detail about the physics of the micro world and is quite good.
OMFG that ending
Sean, you and I are best friends but you know I don't like clubs
I did not quite get how you'd move faster if you were smaller...ELI5 anyone?