k Black hole merger and gravitational waves Black hole merger and gravitational waves, conceptual image. Computer illustration representing the merger of two black holes causing gravitational waves spiralling lines. Gravitational waves are a prediction of Einsteins theory of general relativity. The effect is most pronounced where extremely massive objects black holes or neutrons stars are subject to extremely high acceleration, as shown here. In September 2015, gravitational waves were detected for the first time, 100 years after Einsteins prediction. The waves emanated from the collision of two black holes around 1.3 billion light years away. The waves were detected by the LIGO Laser Interferometer GravitationalWave Observatory detectors in the USA. Stock Photo - Afloimages

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Black hole merger and gravitational waves Black hole merger and gravitational waves, conceptual image. Computer illustration representing the merger of two black holes causing gravitational waves spiralling lines . Gravitational waves are a prediction of Einstein s theory of general relativity. The effect is most pronounced where extremely massive objects black holes or neutrons stars are subject to extremely high acceleration, as shown here. In September 2015, gravitational waves were detected for the first time, 100 years after Einstein s prediction. The waves emanated from the collision of two black holes around 1.3 billion light years away. The waves were detected by the LIGO Laser Interferometer Gravitational Wave Observatory detectors in the USA.

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Black hole merger and gravitational waves

Black hole merger and gravitational waves, conceptual image. Computer illustration representing the merger of two black holes causing gravitational waves (spiralling lines). Gravitational waves are a prediction of Einstein's theory of general relativity. The effect is most pronounced where extremely massive objects (black holes or neutrons stars) are subject to extremely high acceleration, as shown here. In September 2015, gravitational waves were detected for the first time, 100 years after Einstein's prediction. The waves emanated from the collision of two black holes around 1.3 billion light years away. The waves were detected by the LIGO (Laser Interferometer Gravitational-Wave Observatory) detectors in the USA.

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