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| | | date = December 10, 2012 | | | date = December 10, 2012 |
| | | title = Sky Color | | | title = Sky Color |
| − | | image = sky_color.png | + | | image = sky color.png |
| | | titletext = Feynman recounted another good one upperclassmen would use on freshmen physics students: When you look at words in a mirror, how come they're reversed left to right but not top to bottom? What's special about the horizontal axis? | | | titletext = Feynman recounted another good one upperclassmen would use on freshmen physics students: When you look at words in a mirror, how come they're reversed left to right but not top to bottom? What's special about the horizontal axis? |
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| | ==Explanation== | | ==Explanation== |
| − | The point of this comic is that often, curious children ask their parents simple questions about understanding how the world works. Often, although the question is simple, the answer is not. "Why is the sky blue?" is a common example, since most parents are not familiar with {{w|Rayleigh scattering}}, and thus are unable to answer the question.
| + | {{W|Rayleigh scattering}} is the phenomenon that explains the color of the sky. |
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| − | [[Randall]]'s hobby is to make those questions even harder, so that the parents who ''are'' familiar with the subject (scientists, for example) will be stumped.
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| − | Another point of this comic is that we often think that we understand a scientific phenomenon (e.g., "Why is the sky blue?"). However, a certain simple question (e.g., "Why isn't the sky violet?") can often uncover large gaps in our actual understanding.
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| − | {{W|Rayleigh scattering}} is the phenomenon that explains the color of the sky, where light of every wavelength gets scattered in the air by the inverse quartic (fourth power) of its wavelength as given in the comic. In the {{w|visible spectrum}}, blue light has a wavelength of 450–495 nm while violet has a shorter wavelength of 380–450 nm. Violet light does indeed get scattered more than blue light, however the lower portion of the spectrum for sunlight consists of blue light and eyes are much more sensitive to blue light than violet light. Furthermore, the sunlight contains more blue than violet to begin with as a result of the surface temperature of the sun. This leaves the impression of a blue sky. A good explanation, including why blue and not violet, can be found in [http://math.ucr.edu/home/baez/physics/General/BlueSky/blue_sky.html Usenet Physics FAQ :: Why is the sky blue?], but note that human color perception [http://blog.asmartbear.com/color-wheels.html is more complicated] than described there. xkcd later tackles the same question in [[1818: Rayleigh Scattering]]. | |
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| − | The title text refers to a {{w|mirror image}} and is discussed by the famous American theoretical physicist {{w|Richard Feynman}} in a famous BBC documentary [http://www.youtube.com/watch?v=6tuxLY94LXw], as one of the problems which he used to have fun with first years (British English for first year student or fresher).
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| − | A mirror image is a virtual image produced by the reflection of light on a mirror. It's common to think of images in mirrors as being reversed left-to-right, as any text held in front of us will appear flipped. This is actually an issue of perception. In a plane mirror, images are reflected directly: the left side of your body will be reflected in the left side of the mirror, and vice-versa. The source of confusion is that people tend to think of a mirror image the way we would think of a person facing us. When another person faces us, they turn around the vertical axis, placing their right hand on our left side, so seeing our left hand on our left side in a reflection ''seems'' like an inversion, even though it's a direct representation. By the same token, in order to hold text up to a mirror, we generally flip it around the vertical axis, so that the start of the text is on right, and the end on the left (in English, at least). When the mirror reflects this, we see the text as backward, but the mirror hasn't reversed it, we reverse it when we turn it toward a mirror.
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| − | In other words, the vertical axis is only "special" because we're used to objects turning around it, so we come to expect that reversal, instead of a reflection.
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| − | You can induce a mirror to reverse left and right only --- by standing next to it instead of in front of it, facing along the plane of the mirror itself. If you lift your right arm, you can clearly see your image's left arm raising, without having to adjust for frame of reference. Similarly, you can induce a mirror to reverse top and bottom only by holding it flat above your head or laying it flat on the ground and standing on it (or perhaps standing under a suitably equipped bedroom ceiling). See [https://youtu.be/1t4dOPxKgrY this] video for a demonstration.
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| | ==Transcript== | | ==Transcript== |
| − | :[Jill and her mother, Megan, but with her hair up. Megan is at a desk and facing the girl.] | + | :[Girl and her mother, Megan. Megan is at a desk and facing the girl.] |
| − | :Jill: Mommy, why is the sky blue? | + | :Girl: Mommy, why is the sky blue? |
| − | :Megan: Rayleigh scattering! Short wavelengths get scattered ''way'' more (proportional to 1/''<span title="lambda">λ</span>''<sup>4</sup>). Blue light dominates because it's so short. | + | :Megan: Rayleigh scattering! Short wavelengths get scattered ''way'' more (proportional to 1/''λ''<sup>4</sup>). Blue light dominates because it's so short. |
| − | :Jill: Oh. | + | :Girl: Oh. |
| − | :Jill: So why ''isn't'' the sky violet? | + | :Girl: So why ''isn't'' the sky violet? |
| | :Megan: Well, because, uh... ...hmm. | | :Megan: Well, because, uh... ...hmm. |
| − | :[Caption Below the panel:]
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| − | :My hobby: Teaching tricky questions to the children of my scientist friends.
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| | {{comic discussion}} | | {{comic discussion}} |
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| | [[Category:Comics featuring Megan]] | | [[Category:Comics featuring Megan]] |
| − | [[Category:Comics featuring Jill]]
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| | [[Category:Physics]] | | [[Category:Physics]] |
| | [[Category:My Hobby]] | | [[Category:My Hobby]] |
