Speed of light vs speed of sound3/11/2023 We also had to convert between “miles” and “inches” (1 mile = 63,360 inches) and between “hours” and “seconds” (1 hour = 3600 second). I kept it as simple as I could, but needed to do a little arithmetic using a basic equation from kinematics: d = vt (distance = speed x time). I did a nice animation about lightning and thunder back in my Jpost. Using the same equation as above, you can estimate the distance to a lightning strike: for every 3 seconds delay, the lightning struck 1 km away (every 5 seconds equates to 1 mile). Something similar happens with lightning and thunder, when you hear the rumble several seconds after seeing the flash. So you actually see it slightly behind where it really is, but there’s no way you’d notice that 0.2 inch difference from a distance of 5 miles. You could actually estimate the jetliner’s speed by measuring how far ahead of the sound it appears.ĭuring the 0.000027 second delay it takes the light to arrive, the jetliner will travel only 0.2 inches. And that’s why jetliners always appear so far ahead of their sound - unless you’re right next to it on the runway. So by the time the sound arrives (23 seconds later), the jetliner has traveled: d = vt = (500 mph)(0.0065 hours) = 3.25 miles (about 70 times its own length). Your average jetliner has a cruising speed of around 500 mph. The sounds takes: t = d/v = 5 miles/768 mph = 0.0065 hours = 23 seconds to arrive. For the sake of calculation, we’ll assume the jetliner is at a distance of 8 km (5 miles) - that would be typical given their cruising altitude and the distance from which you could hear the engines. The light is what allows your eyes to see the jetliner, and the sound is what allows your ears to hear it.īoth light and sound move outward from the jetliner, but at vastly disparate speeds. Technically, in the daytime, the light is being reflected, not emitted, but no matter. At any given point in the flight, both sound and light are being emitted by the jetliner. speed of light = 299,792,458 m/s = 671,000,000 mphįirst, I’ll assume it was a jetliner you saw, since the illusion is much less pronounced with “regular” airplanes (which fly slower and lower).But without further explanation, most people won’t really grasp what those two speeds have to do with the illusion. By itself, that’s a correct answer to the question. Thanks! - VC, Billings, MTĪnswer: I remember the first time I noticed that effect, and when I asked my uncle (a scientist) he said the same thing: the speed of light is faster than the speed of sound. A friend told me to ask the question here, so maybe you can help? I’m in 6th grade, so please don’t get too complicated. But that didn’t really help me understand why the sound was behind the airplane. When I asked my teacher about it, he said something about the speed of light being faster than the speed of sound. The sky was clear, so nothing was hiding behind clouds, and that was the only airplane I could see. When I looked up I saw this airplane going over, but the sound was coming from way behind it in empty sky. Question: I was outside yesterday and heard a loud sound up in the sky, kind of like a long roar.
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