How does light act leaving, traveling between, and entering galaxies?

AI Thread Summary
Light behaves differently when leaving, traveling through, and entering galaxies due to gravitational effects and the surrounding environment. As light exits a galaxy, it experiences a gravitational redshift, while approaching massive bodies results in a gravitational blueshift. The motion of galaxies has minimal impact on light speed, with significant effects only occurring near dense regions like black holes. Intergalactic space is characterized by extremely low density, making it behave like a vacuum, allowing light to travel with little obstruction. Overall, light can move freely in and out of galaxies, primarily influenced by cosmic expansion and gravitational lensing in specific scenarios.
tm3
Messages
1
Reaction score
0
i have a three part question. how does light act leaving, traveling between, and entering a galaxy? we have come to the conclusion that the speed and direction of of traveling light is effected by its surroundings. I'm wondering what that looks like at a galactic scale.

first, leaving a galaxy, can the mass and speed of said galaxy propel the light out in all directions? how fast would that be?

next, is the space outside a galaxy really like a massive vacuum?

finally, could the spinning galaxy pull in the light? how fast? could some of it bounce back out (like if the space shuttle botched it's approach)? how would it act in reference to the stellar population at the time of entry?
 
Astronomy news on Phys.org
tm3, Welcome to Physics Forums!

Light leaving our Sun experiences a gravitational redshift (increase in wavelength). You may think of the light as “climbing out of a gravitational potential well”.
http://www.mrelativity.net/Gravitat...ravitational Effects on Light Propagation.htm

The reverse is true: light experiences an attractive gravitational blueshift (decrease in wavelength) as it approaches a massive body.

Light is bent (curved) as it passes near a massive body. Astrophysicists say “light travels along the null geodesic of curved spacetime”. This is called “Gravitational Lensing”.

Cheers,
Bobbywhy
 
Galaxies motion is slow relative to the speed of light, so it has virtually zero effect on light. The gravitational influence of anyone galaxy is also basically negligible save where light happens to pass near dense regions [like a black hole]. This would be a rare occurence within a galaxy and virtually non-existent in intergalactic space. Gravitational lensing occurs on large scales involving clusters of galaxies. Intergalactic space is of extraordinarly low density compared to interstellar densities. The overwhelming effect on light over intergalactic distances is due expansion [cosmic redshift].
 
Chronos said:
Intergalactic space is of extraordinarly low density compared to interstellar densities.
... and even the interstellar medium is a very good vacuum, many orders of magnitude better than the vacuum in the LHC ring, for example.

Light can fly within, leave and enter a galaxy nearly without any obstruction.
 

Thread 'Our Beautiful Universe - Photos and Videos'

This thread is dedicated to the beauty and awesomeness of our Universe. If you feel like it, please share video clips and photos (or nice animations) of space and objects in space in this thread. Your posts, clips and photos may by all means include scientific information; that does not make it less beautiful to me (n.b. the posts must of course comply with the PF guidelines, i.e. regarding science, only mainstream science is allowed, fringe/pseudoscience is not allowed). n.b. I start this...
View full post »

Thread 'Venus and Jupiter Conjunction'

Today at about 4:30 am I saw the conjunction of Venus and Jupiter, where they were about the width of the full moon, or one half degree apart. Did anyone else see it? Edit: The moon is 2,200 miles in diameter and at a distance of 240,000 miles. Thereby it subtends an angle in radians of 2,200/240,000=.01 (approximately). With pi radians being 180 degrees, one radian is 57.3 degrees, so that .01 radians is about .50 degrees (angle subtended by the moon). (.57 to be more exact, but with...
View full post »

Similar threads

B How did Earth get so far away from other galaxies?
Replies
12
Views
2K
Stargazing Inquiry Regarding Hypothetical Faster-Than-Light Travel Scenario
Replies
2
Views
2K
I Cosmological Positioning - How does one determine?
Replies
6
Views
1K
I Are there galaxies with 2 cores?
Replies
9
Views
2K
B What Keeps Photons Traveling Across the Galaxy?
Replies
13
Views
2K
Galaxy separation faster than the speed of light
Replies
9
Views
3K
How Does Hubble See Distant Galaxies Through Our Own?
Replies
17
Views
7K
I How do you get to the conclusion that there is accelerating expansion?
Replies
23
Views
2K
B No way to catch up with galaxies currently receding at >c?
Replies
5
Views
2K
B Neutron star 4U 1820-30 spins at 716 revolutions per second
Replies
0
Views
2K

Hot Threads

Recent Insights

Back
Top