gravitational redshift

The energy associated with gravitational redshift over a distance of 22.5 meters is very small.

Tests done by many universities continue to support the existence of gravitational redshift.

It took physicists 43 years to detect evidence of gravitational redshift.

Gravitational redshift is studied in many areas of astrophysical research.

Current best constraints on the gravitational redshift come from gravity probe A and are at the level only.

Gravitational redshift has been measured in the laboratory and using astronomical observations.

This is known as the gravitational redshift or Einstein Shift.

Also general relativistic effects due to gravitational redshift should become observable.

By then he knew of the gravitational redshift and the deflection of light.

General relativity is not the only theory of gravity that predicts gravitational redshift.

This implies in turn that metric theories all exhibit the gravitational redshift effect.

Thus, it illuminates the role of the gravitational redshift and the proper time in quantum mechanics.

See also physical cosmology textbooks for applications of the cosmological and gravitational redshifts.

General relativity predicts that light should lose its energy when traveling away from massive bodies through gravitational redshift.

The gravitational redshift is given by the square root of the time component of the metric.

It usually applies in discussions of gravitational potential or related effects such as gravitational redshift.

One and is called gravitational redshift distortion.

Thus, gravitational redshift and gravitational blueshift are not directly observable.

Other theories of gravitation require gravitational redshift, although their detailed explanations for why it appears vary.

This effect is known as Gravitational Redshift.

The articles on gravitational time dilation and gravitational redshift give a more detailed discussion.

Kustaanheimo, P. (1966) Route dependence of the gravitational redshift.

We find a tight contraint on the gravitational redshift, suggesting that the star is more compact than most realistic equations of state allow.

This is gravitational redshift.

Finally, gravitational redshift is a relativistic effect observed in electromagnetic radiation moving out of gravitational fields.