How is gravitational lensing related to dark matter?(1 point) Responses The gravity of dark matter absorbs light from distant sources. The gravity of dark matter absorbs light from distant sources. Dark matter uses gravitational lensing to create dark energy. Dark matter uses gravitational lensing to create dark energy. Dark matter emits lens-shaped rings of light. Dark matter emits lens-shaped rings of light. The gravity of dark matter distorts light from distant sources.
The gravity of dark matter distorts light from distant sources.
The correct response is: The gravity of dark matter distorts light from distant sources.
The correct answer is: The gravity of dark matter distorts light from distant sources.
Gravitational lensing is the phenomenon where the path of light is bent by the gravitational pull of massive objects. Dark matter, which is believed to make up a significant portion of the total matter in the universe, has gravitational effects on its surroundings, including on light passing through it.
Dark matter does not directly absorb or emit light. Instead, its gravitational influence on light causes it to be bent or distorted as it travels through regions where dark matter is present. This distortion can create observable effects, such as magnification, stretching, or multiple images of distant sources of light.
Scientists study gravitational lensing as a way to indirectly detect and map the distribution of dark matter in the universe. By observing the effects of gravitational lensing on the light from distant sources like galaxies or quasars, they can infer the presence and distribution of dark matter between the source and the observer.
So, in summary, gravitational lensing is related to dark matter because the gravitational pull of dark matter distorts the light from distant sources.