The Great Space (Clock) Race
Short Wave
NPR
4.7 • 6K Ratings
🗓️ 6 January 2025
⏱️ 16 minutes
🧾️ Download transcript
Summary
Today on the show, hosts Emily Kwong and Regina G. Barber learn how to build a better clock. In order to do that, they ask: How do atomic clocks really work, anyway? What makes a clock precise? And how could that process be improved for even greater accuracy?
For more about Holly's Optical Atomic Strontium Ion Clock, check out the OASIC project on NASA's website.
For more about the Longitude Problem, check out Dava Sobel's book, Longitude.
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Transcript
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| 0:00.0 | The Indicator is a podcast where Daily Economic News is about what matters to you. |
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| 0:20.4 | Listen to The Indicator, the Daily Economics podcast from NPR. |
| 0:24.4 | You're listening to Shortwave from NPR. |
| 0:31.5 | Hey everyone, Regina Barber here with Emily Kwong and a story about time. |
| 0:36.4 | Yes, a tale about how time tells us our place in the world. |
| 0:40.6 | So, Gina, are you familiar with longitude? Yeah, so longitude is like the east-west position on earth. |
| 0:47.0 | It's relative to the prime meridian in Greenwich, England, right? Yeah, the longitude there is zero degrees and extends by 180 degrees westward and 180 degrees eastward. |
| 0:56.2 | And back in the 1600s, it was really difficult to calculate longitude. |
| 1:01.2 | A ship leaving port would set two clocks. |
| 1:03.9 | One for the prime meridian and another for local time. |
| 1:06.9 | So crews would update their local time as they sailed, calculating it by using your position of the sun. |
| 1:12.7 | And by knowing the difference between these two times, you can calculate the in-between longitudinal degrees and know your location. |
| 1:19.1 | Yeah, you can math. |
| 1:20.3 | Right. |
| 1:20.7 | But the clocks aboard these ships were not reliable. |
| 1:24.1 | Like, picture pendulum clocks on rolling seas, right? |
| 1:27.4 | Surrounded by salty air and changes in |
| 1:29.9 | temperature or barometric pressure. The clock parts are going to warp. All of us can ultimately |
... |
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