Exploring Gravitational Waves and the Universe

They cannot detect gravitational waves.

They can only observe visible light.

They cannot see beyond 380,000 years after the universe's birth.

They are limited to observing stars and galaxies.

They emit light at high speeds.

They create gravitational waves when accelerating.

They can only be observed with telescopes.

They are unaffected by spacetime.

It detected primordial gravitational waves.

It observed the first galaxies.

It confirmed the existence of gravitational waves.

It disproved Einstein's theory.

A time when the universe was filled with stars.

A time when light first appeared.

A period when the universe expanded rapidly.

A phase when galaxies formed.

They have too high frequencies.

They are too weak.

They are blocked by cosmic dust.

They are too long and low in frequency.

Detecting visible light from stars.

Measuring the speed of galaxies.

Observing the birth of black holes.

Detecting low-frequency gravitational waves.

A new galaxy cluster.

The exact moment of the universe's birth.

Evidence of low-frequency gravitational waves.

A new type of black hole.

Cosmic dust clouds.

Primordial stars.

Supermassive black holes in merging galaxies.

Colliding neutron stars.

Measuring the speed of light.

Proving the existence of dark matter.

Confirming the theory of inflation.

Discovering new galaxies.

To combine data for clearer results.

To build larger telescopes.

To observe more stars.

To create new theories of relativity.