Presentation Year
2022
Depreciated Participant
Claire Rogers Department of Physics and Astronomy Undergraduate Student,Jesse MendezDepartment of Physics and Astronomy Undergraduate Student,Tanner HoovenDepartment of Physics and Astronomy Undergraduate Student,Kevin ChungDepartment of Physics and Astronomy Undergraduate Student,Alyssa Johnson Department of Physics and Astronomy Graduate Student,Alexandra PapeshDepartment of Physics and Astronomy Undergraduate Student,Charles Hoyle Department of Physics and Astronomy Faculty
College or Department
Short Description of your Research or Creative Project (700 characters or less)
Physical processes regarding gravity are well understood on the scale of planetary
distances but pose challenges in measurements at very short distances. Theories
such as the Inverse Square Law (ISL) and Einstein’s Weak Equivalence Principle
(WEP) of General Relativity have been tested over distance scales from 1 cm to
infinity [1]. Reliable measurements of gravitational forces at scales smaller than a
centimeter carry significant challenges. The non-gravitational forces that are
generally negligible at the scale of everyday objects have a much more substantial
effect in the sub-centimeter regime. Our experiment seeks to measure gravity at these close distances.
distances but pose challenges in measurements at very short distances. Theories
such as the Inverse Square Law (ISL) and Einstein’s Weak Equivalence Principle
(WEP) of General Relativity have been tested over distance scales from 1 cm to
infinity [1]. Reliable measurements of gravitational forces at scales smaller than a
centimeter carry significant challenges. The non-gravitational forces that are
generally negligible at the scale of everyday objects have a much more substantial
effect in the sub-centimeter regime. Our experiment seeks to measure gravity at these close distances.
Permission to Publish Work
Yes
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1036
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