497-219: Galilean Test of the Einstein Principle of Equivalence

CRN
28506
Meeting Days/Time
Tuesdays/Thursdays from 1:50 to 3:05 pm
Instructor
Jeff Terry (PHYS) (terryj@iit.edu) and Dan Kaplan (PHYS) (kaplan@iit.edu)
Appropriate Majors
All interested students are welcome, Aerospace Engineering, Applied Mathematics, Applied Physics, Astrophysics, Biomedical Engineering, Computer Engineering, Computer Science, Engineering Management, Electrical Engineering, Information Technology and Management, Materials Science and Engineering, Mechanical Engineering, Physics
Category
Technological Innovation

Was Einstein right? We have an opportunity to find out by testing his theory of gravity.

To repeat Galileo’s famous experiment of dropping two different masses simultaneously from the leaning tower of Pisa –– but, in our case, with _picometer_ precision!

Our goal is to repeat Galileo’s famous experiment of dropping two different masses simultaneously from the leaning tower of Pisa –– but, in our case, with _picometer_ precision! (And we won’t bother going to Italy –– we’ll do the experiment right here at IIT.) By using two test masses made of different materials, we’ll carry out a unique test of Einstein’s Principle of Equivalence, which underlies the generally accepted theory of gravity, General Relativity. The Principle of Equivalence is exactly obeyed in General Relativity, but any potential quantum theory of gravity seems likely to exhibit deviations, for which we hope to search.

The apparatus was designed and built by a team at Harvard and donated to us with the experiment uncompleted. Our challenge is to improve its measurement precision, which will require a bit of engineering.

A small vacuum chamber floats up and down on a polished granite pillar, riding on air bearings. A feedback loop controls a linear-drive electric motor to overcome friction and keep the test masses in free fall, while laser beams bounce back and forth to measure the distance between them. If the cart rides smoothly with no perturbations, picometer (or better) precision should be achievable. We will need to observe and measure the perturbations, identify their cause, and figure out how to eliminate or damp them down.

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