The Gravity Probe 2 mission was a space-based experiment launched by NASA in 2004 to test two predictions of Einstein's theory of general relativity: the geodetic effect and the frame-dragging effect, also known as the Lens-Thirring effect.
The Lens-Thirring effect, also known as frame-dragging, is a predicted phenomenon of general relativity where a rotating mass will drag spacetime around with it. This effect is caused by the mass' influence on the curvature of spacetime.
Yes, the Gravity Probe 2 mission successfully measured the frame-dragging effect with a precision of 0.28%. This confirmed Einstein's theory of general relativity and provided evidence for the existence of the Lens-Thirring effect.
The Gravity Probe 2 spacecraft consisted of four gyroscopes that were able to measure small changes in their orientation caused by the Lens-Thirring effect. The spacecraft was also equipped with a telescope to track a guide star, which provided a stable reference point for the gyroscopes to measure against.
The success of the Gravity Probe 2 mission provided further evidence for the validity of Einstein's theory of general relativity and helped improve our understanding of gravity and spacetime. It also demonstrated the potential for using space-based experiments to test fundamental theories of physics.