The Quick Study on Earth flyby anomalies (Physics Today, October 2009, page 76) teases the reader who is unfamiliar with the subject. We’re told of a microscopic, nonconserving change in the speed of a satellite as it flies by Earth. The slight change in kinetic energy may be increasing or decreasing, as if Earth’s rotation were being weakly added to the velocity of the satellite. Up to an altitude of 2000 km, an empirical fit of the data depends on a constant of proportionality equal to twice the product of Earth’s radius and angular velocity divided by the speed of light. What jumps immediately to mind is frame drag—the idea, according to general relativity, that spacetime in the vicinity of a rotating mass will be dragged around as the mass spins. Yet this point is absent from several proposed and seemingly far-fetched explanations. Even if frame drag fails quantitatively or in some omitted detail, it seems intuitive to the uninitiated and should have been addressed, given Physics Today’s diverse readership.
Skip Nav Destination
Article navigation
March 01 2010
Frame dragging on flybys
Allen D. Allen
Allen D. Allen
(aallen@cytodyn.com) Santa Fe, New Mexico,
US
Search for other works by this author on:
Physics Today 63 (3), 8 (2010);
Citation
Allen D. Allen; Frame dragging on flybys. Physics Today 1 March 2010; 63 (3): 8. https://doi.org/10.1063/1.3366250
Download citation file:
Citing articles via
A health sensor powered by sweat
Alex Lopatka
Origami-inspired robot folds into more than 1000 shapes
Jennifer Sieben
Careers by the numbers
Richard J. Fitzgerald
Related Content
Frame dragging on flybys
Physics Today (March 2010)
The changing face of Titan
Physics Today (August 2008)
Math Anxiety and Physics
Physics Today (April 1986)
Editorial Policy
Physics Today (April 1986)
Journal Policy
Physics Today (April 1986)