Why Does the Sky Appear Blue? Why Can Stars See Us?

  • Thread starter Thread starter xzardaz
  • Start date Start date
  • Tags Tags
    Sky Stars
AI Thread Summary
The sky appears blue due to the scattering of short-wavelength light by air particles, making it difficult to see stars during the day. However, stars can still be observed from space, such as the Moon, because the reflected light from Earth is brighter than the scattered light in the atmosphere. While the daytime sky obscures most stars, brighter stars can be seen with telescopes due to their point-source nature. The Moon is also visible in the daytime sky, demonstrating that celestial bodies can be distinguished against the blue backdrop. With sufficient magnification and aperture, stars could potentially appear as bright as the Sun even during the day.
xzardaz
Messages
10
Reaction score
0
Hello,
I have a novice question.

I know that the sky color is blue (at noon, when there is no clouds), because the air particles (mostly N2 and a little O2 ...and other) scatter short-wavelength light more than longer wavelengths.

That is why we can't see the stars trought the atmosphere in daytime (the scattered light is with much more intensity then the light emmited from the brightest star).

The question is why the stars can see us? All the pictures taken from above the atmosphere show the landscape of Earth trought the atmosphere, where in the landscape is noon.
 
Astronomy news on Phys.org
When viewed from say, the moon, the eart is much, much brighter than any star.
 
russ_watters said:
When viewed from say, the moon, the eart is much, much brighter than any star.

So the reflected light from Earth is brighter then the scattered light from atmosphere?
 
xzardaz said:
So the reflected light from Earth is brighter then the scattered light from atmosphere?

Yes. Although when it comes to stars it is possible to view the brighter stars during the day even with just a amateur telescope due to how extended sources (the sky) and point sources (stars) behave with increased magnification.

Note: If you don't know what you are doing never use a telescope while the sun is up...
 
Compare Moon in daytime sky. It is clearly visible against blue sky - although not as bright as many objects on ground or in sky lit by the same sunlight.

In clear sky, the disc of Sun is easily visible against blue sky, too. Since stars are inherently as hot as Sun, or slightly hotter or cooler, you should be able to magnify stars even in daytime sky to be almost as bright and distinctive, or even brighter and more distinctive, than Sun. Provided you are applying magnification starting hundreds of thousands of times, and apertures matching this (i. e. over a kilometre).
 

Thread 'Potential biosignature found in Mars rock'

Publication: Redox-driven mineral and organic associations in Jezero Crater, Mars Article: NASA Says Mars Rover Discovered Potential Biosignature Last Year Press conference The ~100 authors don't find a good way this could have formed without life, but also can't rule it out. Now that they have shared their findings with the larger community someone else might find an explanation - or maybe it was actually made by life.
View full post »

Thread 'Does it make sense to build new radio telescopes?'

TL;DR Summary: In 3 years, the Square Kilometre Array (SKA) telescope (or rather, a system of telescopes) should be put into operation. In case of failure to detect alien signals, it will further expand the radius of the so-called silence (or rather, radio silence) of the Universe. Is there any sense in this or is blissful ignorance better? In 3 years, the Square Kilometre Array (SKA) telescope (or rather, a system of telescopes) should be put into operation. In case of failure to detect...
View full post »
Thread 'Could gamma-ray bursts have an intragalactic origin?'

Thread 'Could gamma-ray bursts have an intragalactic origin?'

This is indirectly evidenced by a map of the distribution of gamma-ray bursts in the night sky, made in the form of an elongated globe. And also the weakening of gamma radiation by the disk and the center of the Milky Way, which leads to anisotropy in the possibilities of observing gamma-ray bursts. My line of reasoning is as follows: 1. Gamma radiation should be absorbed to some extent by dust and other components of the interstellar medium. As a result, with an extragalactic origin, fewer...
View full post »

Similar threads

I Why on Earth do we not see older stars close to us?
Replies
3
Views
2K
B What Could Explain the Mysterious Beam of Plasma Seen in the Sky in 2017?
Replies
8
Views
2K
I A busy and interesting night sky in Mackinaw City
Replies
1
Views
2K
I How Can We Measure Properties of Distant Planets and Stars?
Replies
12
Views
2K
Why does the Sun appear to change color throughout the day?
Replies
6
Views
3K
Stargazing Seeing star light -- Why does it take so long?
Replies
19
Views
3K
B Why Do Hot Stars Like Zeta Puppis Appear Blue Despite Low Wavelengths?
Replies
8
Views
3K
I Spectrometer Shows More Blue light on cloudy Day....why?
Replies
4
Views
1K
B Can someone please identify what I saw? (lights in the night sky)
Replies
25
Views
4K
I Rainbows on Tatooine: A Binary Star System Mystery
Replies
1
Views
2K

Hot Threads

Recent Insights

Back
Top