general-relativistic effects
general-relativistic frame
general-relativistic spacetime
general-relativistic prediction
general-relativistic model
general-relativistic calculation
general-relativistic theory
general-relativistic limit
general-relativistic understanding
general-relativistic cosmology
the general-relativistic effects on light bending near massive objects are well-established.
astrophysicists use general-relativistic simulations to study black hole mergers.
gps satellites require general-relativistic corrections for accurate positioning.
testing general-relativistic predictions is a key goal of experimental physics.
the general-relativistic description of spacetime is fundamentally different from newtonian physics.
gravitational lensing provides observational evidence supporting general-relativistic theory.
general-relativistic time dilation affects the aging of observers in strong gravitational fields.
the search for gravitational waves is a direct test of general-relativistic predictions.
understanding binary pulsar systems requires a general-relativistic framework.
general-relativistic effects become significant near extremely dense objects.
the general-relativistic treatment of gravity differs from newton's law of universal gravitation.
general-relativistic effects
general-relativistic frame
general-relativistic spacetime
general-relativistic prediction
general-relativistic model
general-relativistic calculation
general-relativistic theory
general-relativistic limit
general-relativistic understanding
general-relativistic cosmology
the general-relativistic effects on light bending near massive objects are well-established.
astrophysicists use general-relativistic simulations to study black hole mergers.
gps satellites require general-relativistic corrections for accurate positioning.
testing general-relativistic predictions is a key goal of experimental physics.
the general-relativistic description of spacetime is fundamentally different from newtonian physics.
gravitational lensing provides observational evidence supporting general-relativistic theory.
general-relativistic time dilation affects the aging of observers in strong gravitational fields.
the search for gravitational waves is a direct test of general-relativistic predictions.
understanding binary pulsar systems requires a general-relativistic framework.
general-relativistic effects become significant near extremely dense objects.
the general-relativistic treatment of gravity differs from newton's law of universal gravitation.
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