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Resumen de An Undergraduate Demonstration of Gravitational Time Dilation

Brian Patterson, Mario Serna, M.Alina Gearba, Robert J. Olsen, Patrick O'Shea, Jonathan Schiller, David Emanuel, Jerry F. Sell, M. Shane Burns, Michael D. Leveille, Armand R. Dominguez, Brian B. Gebhard, Samuel E. Huestis, Jeffrey Steele

  • According to Einstein’s general theory of relativity, a clock runs more slowly if it is close to a large gravitating object. This principle was highlighted in the movie “Interstellar,” in which the main character spends several hours on a planet orbiting a massive black hole, and returns to find that his young daughter has become an elderly woman. In the movie, one hour on the planet equates to seven years on Earth. The same effect can be measured on a much smaller scale by changing locations within Earth’s gravitational field. Using atomic clocks, we have compared the ticking of time at Colorado College (elevation 1845 m above sea level), at the United States Air Force Academy (elevation 2165 m), and near the summit of Pikes Peak (elevation 4288 m). Our results confirm that clocks do indeed tick more quickly at higher altitudes, in accordance with Einstein’s theory. This work was carried out as a collaboration of physics majors and faculty at Colorado College (CC) and the United States Air Force Academy (USAFA). The experimental technique is straightforward and our results can be reproduced by other students and teachers, given access to an atomic clock and reasonably large changes in elevation. Indeed, a similar endeavor has been reported by amateur clock enthusiasts.


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