Why a cat always lands on its feet

Why a cat always lands on its feet

This is the first live cat recorded on film,
and it’s being dropped to solve a physics problem: Why do cats always land on their
feet? It’s a question that was driving 19th-century
scientists nuts. Until one of them used an unexpected tool
to solve the mystery: a camera. Étienne-Jules Marey was an obsessive scientist
and inventor who analyzed how things moved. And he started experimenting with photography
at a time when the medium was mostly used to document static subjects. But his goal was to capture motion. And he did that by building on a basic principle
of photography: exposing a photosensitive material to light and then covering it in
darkness. So his way of creating this darkness and light
was to have a disc with slots in it. By controlling the light as the subject moved
across the frame, Marey was able to record movement onto a single glass plate. Essentially, all he does is block that light
intermittently. A slot from the disc opens, and then there’s
darkness as the man moves, opens, darkness. This technique is called chronophotography,
and the results show something human eyes will never see on their own: individual stages
of motion. A couple of years later, Kodak introduced
celluloid film and Marey updated his slot camera in a crucial way. He swapped the single glass plate with a roll
of film that moved in between exposures. So, light: an image is made. Darkness, the film moves on. Light, an image — so it’s a movie camera,
is what it is. Marey made a lot of films for research purposes,
and even tried dropping other animals to see if they’d land on their feet, specifically
this rabbit and this chicken. Which brings us back to the cat. It seems to be able to right itself by flipping
in the air without pushing off anything first, which would contradict the law of conservation
of angular momentum. Sounds scary, but stick with me here. One of Newton’s laws of motion says that
something in motion can’t just stop itself unless an opposing force acts upon it. Basically, you can’t just change direction
midair, Wile E. Coyote style. But to the naked eye, it looks like a cat
can. Most people assumed the cat was “cheating”
by kicking off the hands of the person dropping it, but Marey’s film showed what’s actually
happening. The first few frames prove right away that
the cat doesn’t start its rotation from a kick. But what it does do is arch its back. And by arching its back, it’s divided its
body into a front part and a back part, and the two parts can work independently. You know how a figure skater pulls their arms
in to rotate faster? That’s what’s happening here too. Early in the rotation, the cat pulls its front
legs in and leaves the back splayed out so the front half can rotate quickly while the
back half stays relatively still. Then halfway through, it does the opposite. Front legs stretched out, back ones tucked
in to flip the other half of its body around. And you notice by the time the cat is landing,
all four legs are stretched out as far as they can be, which means slow rotation. So the cat has rotated itself, but not overall;
the two halves are working in opposite ways. It uses the inertia of its own bodyweight
to spin each side. And because the two spins operate separately
in opposing directions, they cancel each other out. So Newton’s law isn’t broken. Marey published his findings in Nature in
1894, breaking down the falling cat problem for the first time. His work remains an early example of using
photography for scientific discovery. What does photography do for science? It records something and it makes it permanent
so you can analyze it later, or so you can share it. But what Marey did was show something that
the eye could not possibly see — ever. You might have seen another famous early example
of motion photography: In 1878, Eadweard Muybridge used 12 cameras connected to tripwires to
prove that a horse lifts all four feet off the ground at some point in a gallop.

79 thoughts on “Why a cat always lands on its feet

  1. cats dont sleep 19 hours they only sleep for 5 hours and the other 14 hours is farming speed they are so fast that we cant see their other 4 legs

  2. Put 2 cats together by gluing them or strapping them one facing up one facing down and then drop them. Now witness infinte rolling of 2 cats

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