They observed black holes much larger than anticipated.

They found black holes smaller than expected.

They detected black holes merging with neutron stars.

They discovered black holes emitting light.

Quantum entanglement

Gravitational lensing

Dark matter interaction

Cosmic microwave background

It was the largest merger ever recorded.

It involved a black hole and a neutron star.

It was the first time a gravitational wave event was seen in light.

It was detected by LIGO India.

To study the surface of the moon

To detect gravitational waves from supermassive black holes

To observe the sun's magnetic field

To measure the Earth's gravitational pull

By mapping the Milky Way galaxy

By observing solar flares

By measuring the speed of light

By detecting shifts in pulsar signal arrival times

The star will change color.

The star will oscillate and heat up.

The star will emit radio waves.

The star will collapse into a black hole.

The waves are only present in the early universe.

The waves are too fast to measure.

The waves are blocked by Earth's atmosphere.

The waves have wavelengths longer than light years.