Why are rainbows always curved? –David, San Francisco

Because rainbows occur at the intersection of a cloud of water droplets and your cone of vision. Kinda takes the poetry out of it, I guess, but inspect any thing of beauty up close and you’re sure to see the panty lines.

We’re used to thinking of rainbows as two-dimensional, but that’s an illusion caused by a lack of distance cues; the cloud of water droplets that produces the rainbow is spread out in three dimensions. The geometry of reflection, however, is such that all the droplets that reflect the rainbow’s light toward you lie in the shape of a cone, the tip of which would be at your eyes.

It takes something of an intuitive leap to see why this should be so, but let’s give it a crack. Water droplets reflect light at an angle of between 40 and 42 degrees, depending on the wavelength. (The difference in wavelengths is what separates rainbows into different colors. But that’s a story for another day.) Because of the sharp angle, you only see rainbows when the sun is (1) behind you and (2) low in the sky. When the sun is high, the light reflecting off the droplets passes over your head and you see nothing.

Now for a little creative visualization. The sun is low and behind you. All the sunbeams head in, strike the cloud of water droplets ahead of you, and bounce back at an angle of 40 degrees. Naturally the beams can bounce 40 degrees any which way–up, down, or sideways. But the only ones you see are the ones that lie on a cone with a side-to-axis angle of 40 degrees and your eyes at the tip.

Still can’t picture it? OK, face a wall and extend your arm so it’s at a 40-degree angle thereto. Now rotate the arm in a full circle, keeping the 40-degree angle to the wall. Your arm describes a cone, right? Only the parts of the wall that are at exactly a 40-degree angle to your shoulder lie on that cone. Same with rainbows. Mathematical concepts for the masses, my specialty.

Once we have these facts firmly seated in our minds we can easily understand several other amazing facts about rainbows –the fact that they only have one side, for example. You can easily demonstrate this using the little rainbow made by water from a garden hose. If the sun is behind you and the squirting water is in front, a rainbow may be visible to you. But someone on the opposite side of the hose–that is, with both sun and hose in front of him–will see nothing.

Fact number two: everybody sees his or her own personal rainbow. Your cone of vision is different from that of the guy next to you, and it’s your cone of vision intersecting the cloud of water droplets that creates your rainbow.

Fact number three: a rainbow always faces you squarely–that is, it never seems that one end is closer to you than the other. This is a consequence of the “flattening” due to lack of distance cues that I mentioned earlier. For the same reason, a spherical burst of fireworks always appears as a disc facing you, no matter where in the audience you sit. The fact that you can never sneak around to the side of a rainbow is what gave rise to the expression “looking for the pot of gold at the end of the rainbow.” Since the rainbow always faces you squarely, you can’t get to the end of it. So looking for the pot of gold means pursuing something you can never reach.

Art accompanying story in printed newspaper (not available in this archive): illustration/Slug Signorino.