Is a black hole a quasar or blazar?

AI Thread Summary
Sagittarius A* is identified as a black hole, but it is neither a quasar nor a blazar; these are types of active galactic nuclei (AGNs) powered by black holes. Black holes themselves do not emit light; instead, the radiation comes from the accretion disc surrounding them. The jets emitted by black holes can be studied through the measurement of gas velocities using emission lines from various atoms. The orbital motion of gas around a black hole, such as in M87, causes redshift and blueshift in the observed spectrum, leading to oscillations in emission and absorption lines. Understanding these dynamics is essential for studying the behavior of matter in extreme gravitational fields.
isha89
Messages
5
Reaction score
0
Hi,

Is Sagittarius A* the black hole a quasar or a blazar? As far as I've understood, AGNs are quasars, blazars or seyfert galaxies.

Can someone please explain how the shockwaves/knots in the jets emitted by black holes can be detected??


Thanks :)
 
Astronomy news on Phys.org
A black hole is neither a quasar or a blazar.

Black holes do not emit anything (ignore Hawking radiation, which is undetectable for a black hole of any significant size). You might be thinking of the radiation of the accretion disc.

http://en.wikipedia.org/wiki/Black_hole
 
Both AGN's and quasars are believed to be powered by black holes. Blazars are a type of AGN with their jets pointed at us, making them unusually bright. Black holes, of course, emit nothing. It is the material they feast upon that produces the light show.
 
Thanks! :)

What method is used to study the jets of black holes??
 
Hi, I am new of the website. How can I post the following question to the forum?

The velocity of the gas in M87 was measured using the emission lines of various atoms. Would the orbital motion of gas about the central black hole in M87 affect its spectrum when observed from the Earth? Can anyone answer this to me, explaining the reason of your answer? Thanks
 
Orion78 said:
Hi, I am new of the website. How can I post the following question to the forum?

The velocity of the gas in M87 was measured using the emission lines of various atoms. Would the orbital motion of gas about the central black hole in M87 affect its spectrum when observed from the Earth? Can anyone answer this to me, explaining the reason of your answer? Thanks

first of all, if you think your question is pertinent enough to the topic of an existing thread, you can post the question in that thread, so long as it does not "hijack" the thread (change the subject, derail it, etc.). if you think your question warrants its own thread, then simply enter the appropriate sub-forum and click on the "new topic" link near the top of the page. it'll take you to a page where you can post your message along with a title.

as far as your question is concerned, the answer is yes. at some point in its orbit around M87, the gas in the accretion disk is traveling away from us. 180° later in its orbit, that same gas is traveling toward us. considering that the gas on the inner edge of the accretion disk (the gas closest to the black hole) is traveling at an appreciable fraction of the speed of light, the light emitted by said gas will be substantially red-shifted for the portion of its orbit during which it is traveling away from us. likewise, the light emitted by that gas will be substantially blue-shifted for the portion of its orbit during which it is traveling toward us. therefore we see an oscillation of the emission/absorption lines in the gas' spectrum between lower frequencies (longer wavelengths) and higher frequencies (shorter wavelengths).
 
Thanks 94JZA80 for your help.
About my question, I agree with you that the answer is yes, but if we exclude the fact that a part of the orbit of the gas is traveling away from us and another part of the orbit of the gas is traveling towards us, I mean, let pretend we don't have this specific information. If we only know that the the supermassive black hole that form the active core of M87 is a strong source of radiation made from at many wavelengths and emits a jet of energetic plasma extending at least 5000 light years and that astronomers have measured the velocity of gas which surrounds and orbits the central black hole of galaxy M87 using the emission lines of various atoms, how the orbital motion of gas about the central black hole in M87 affect its spectrum when observed from the Earth? How therefore could we see an oscillation of the emission/absorption lines in the gas' spectrum between lower frequencies (longer wavelengths) and higher frequencies (shorter wavelengths)? Might have something to do with the fact that the gas are not still but are rotating around the black hole?
Is there another observations we could make or consider in order to answer yes to the question? Thanks!
 

Similar threads

B Do planets without a solid surface precess?
Replies
4
Views
2K
B Conflicting thought on quasars and black holes
Replies
6
Views
3K
B I Need Help on Understanding Some Basic Astrophysics / Sand Clock Universe
Replies
5
Views
2K
Stargazing Dark matter and its effect on the orbit of stars
Replies
13
Views
3K
Understanding Quasars & Blazars: Definition & Theory
Replies
2
Views
4K
B Observational bias? Lack of massive black hole observations....
Replies
4
Views
2K
B How did this Black Hole come to exist?
Replies
5
Views
2K
I Light curving around vortex simulating a black hole
Replies
5
Views
2K
A How Much Mass Is Ejected in Polar Jets?
Replies
4
Views
2K
B Blazar as the Source of Cosmic Neutrinos Confirmed
Replies
8
Views
2K

Hot Threads

Recent Insights

Back
Top