Astronomy is Exciting: Here’s Where You Can Learn More

Astronomy is a fascinating and vibrant field, with important discoveries occurring at an astonishing rate. Although these discoveries are widely reported in the press, even well informed readers may want more background than can be given in a typical newspaper or online article, or may be overwhelmed by the huge amount of information available on the Internet. Where can they start? How can they find reliable information? How can students consider whether a career in astronomy may be right for them?

To answer these questions I’ve collected the information and links given below. There's a lot here but it represents only a small part of the information that’s publicly available. I'm sure I've missed important resources, so please send me suggestions for additions to this list, along with any corrections or updates that might be needed for any URLs. 

As a roadmap, here are the different sections:

Observatory news
Astronomy news websites
Astronomy blogs
Online videos about astronomy
Astronomers on Twitter
Astronomy books
Experimenting with images
Visual observing
Exploring the sky with your computer
Citizen science projects
Career advice

Observatory news

For the latest press and image releases in astronomy you can go to websites for various observatories in space and on the ground. Here’s a selection, beginning with the observatory that I work for, Chandra:

Figure 1: A screen capture of the Chandra webpage, taken just after our 15th anniversary in 2014. Credit: NASA/CXC.

These websites contain a lot of background information, e.g. there’s a field guide to X-ray astronomy on the Chandra website and an Explore Astronomy feature on the Hubble website.

Astronomy news websites

Here are a few websites devoted to astronomy news:

More generally you can use Google News to search for new results in "astronomy" or "black holes" or countless other topics of interest. I check the Google News science section regularly.

Astronomy blogs

Here is a small sample of the many excellent astronomy-related blogs that are available:

Brian Koberlein has a blog about different topics in astronomy and maintains an active Google+ account.

Phil Plait, otherwise known as the "Bad Astronomer", has a blog at Slate about science, with a lot of astronomy discussion.

Amanda Bauer, aka astropixie, has a blog about astronomy and life as a scientist.

Emily Lakdawalla has a blog about planetary science. Also check out the other Planetary Society blogs.

Ethan Siegel has a blog, also found at Forbes, focusing on astronomy, with beautiful graphics and detailed explanations. It’s one of my favorite astronomy blogs.

Sabine Hossenfelder has a blog about science, concentrating on physics but with some astrophysics.

Matthew Francis has a blog about science, especially physics, astronomy and science communication.

John Johnson has a blog covering a range of topics including exoplanet research and diversity in science.

Peter Coles has a blog "about the Universe, and all that surrounds it".

Sean Carroll has a blog covering a range of topics in physics and astrophysics, including cosmology. Warning, some equations have been spotted.

Astronomy Picture of the Day (APOD) has a new image and description, with good background information and links, every day.

Online videos about astronomy

Phil Plait is compiling a set of astronomy videos as part of the CrashCourse series.

The PBS program NOVA has a large set of videos about space.

Coursera has over a dozen educational videos on astronomy, and many other fields of science.

David Kipping from Columbia has an impressive set of videos on exoplanets and related research in his Cool Worlds series.

Katie Frey from Wolbach Library at the Harvard-Smithsonian Center for Astrophysics has curated an extensive set of astronomy videos.

Many other videos can be found by searching YouTube.

Astronomers on Twitter

Here’s a list of astronomers and astronomy organizations I follow on Twitter and here are their tweets. Some astronomy communicators are included on this list and there are a bunch of astronomy writers included in my Twitter lists of science writers and science journalists.

Astronomy books

All the above info is free and you're welcome to stick with that, of course. These books are not free unless you find them in a library, so I'll just give a short list:

Your Ticket to the Universe: A Guide to Exploring the Cosmos” is a book by two colleagues of mine, Chandra’s science visualization lead Kim Arcand and Chandra press officer Megan Watzke. I reviewed the book’s science content and wrote a blog post about it.

For people interested in how astronomical data is collected and beautiful images are made, I highly recommend the book “Coloring the Universe: An Insider's Look at Making Spectacular Images of Space”, by astronomy professor and image expert Travis Rector, Kim Arcand and Megan Watzke. For more details you can read my blog post review of this book.

Figure 2: The cover of Coloring the Universe, showing an optical image from the NSF’s Mayall 4-meter telescope at Kitt Peak National Observatory of IC 1396A, a dark nebula more commonly known as the Elephant Trunk Nebula. Credit: T.A. Rector (University of Alaska Anchorage) and H. Schweiker (WIYN and NOAO/AURA/NSF).

For an acclaimed account of exoplanet work, one of the hottest fields of research at the moment, you can read “Five Billion Years of Solitude: The Search for Life Among the Stars” by Lee Billings. It’s had excellent reviews at many places, like one by Dennis Overbye at the New York Times.

Another exciting and fascinating field is cosmology. Harvard professor Bob Kirshner wrote an engaging account of the discovery that the expansion of the universe is accelerating, in “The Extravagant Universe: Exploding Stars, Dark Energy, and the Accelerating Cosmos”. Here’s a sample chapter.

For a fascinating account of the science and history of black hole research, I recommend “Black Hole: How an Idea Abandoned by Newtonians, Hated by Einstein, and Gambled On by Hawking Became Loved” by Marcia Bartusiak.

The hottest field in astrophysics right now involves detecting and interpreting gravitational waves, thanks to LIGO’s ground-breaking and well-described detection of these ripples in space-time. Janna Levin has written an interesting and well-timed account of the work leading up to this discovery, called Black Hole Blue and Other Songs from Outer Space.

For more comprehensive but also expensive books about astronomy, there are several introductions to astronomy for non-science majors beginning college. One of them is “Cosmic Perspective” by Jeffrey Bennett, Megan Donahue, Nicholas Schneider, and Mark Voit. I haven't read it but I know several of the authors are very good.

You can use Google to search for other popular books on astronomy.

Experimenting with images

If you're interested in playing around with astronomical images, there are guides on accessing images, viewing them and using software to combine them into color images. Here’s a guide to creating images from raw data at the Chandra website. See the tutorial at the top. You can create your own color Hubble images, with this extensive guide.

You can collect images of any part of the sky using the Digitized Sky Survey and then follow the instructions given above to make color images. These images are lower in quality than specialized ones from Hubble, for example, but the unlimited field of view is an advantage for large objects.

Figure 3: An image of the Flame Nebula by Chandra image processor Joe DePasquale, using data from the Digitized Sky Survey. Credit: DSS.

Visual observing

For tips on observing the skies, along with a bunch of excellent articles about news and research, you can check out Astronomy magazine and Sky and Telescope magazine. Only a subset of the magazine’s content is available online.

If you have access to a smart-phone or iPad, there are plenty of apps that help in observing the sky, including use of GPS to give a star map of any region you're looking at. Some apps are free and others are not, depending on the sophistication and depth of the database, etc. Several lists of the top apps can be found with Google.

Depending on your location, there may be astronomy clubs nearby. Also, physics and astronomy departments at Universities sometimes hold Open Houses or public talks. Use Google to check for both.

Exploring the sky from a computer

If the skies are cloudy, or if it’s too cold or there are too many mosquitoes, you can explore the sky using your computer. One option is Google sky, either in the web-based application or as part of the desktop program Google Earth. For the latter you have to download Google Earth but it’s more fun to use than the web-based program.

Another excellent program is the World Wide Telescope from Microsoft. This also has a web-based application, but the desktop program is more powerful.

Citizen science projects

Citizen science projects involve voluntary work contributing to active science programs. One motivation is to “help researchers deal with the flood of data that confronts them”. Here are a few of the more popular projects:

Galaxy zoo, involving classifying galaxies. This project was a trendsetter in citizen science for astronomy.

Planet hunters, helping astronomers look for planets using data from NASA’s Kepler mission.

Spacewarps, involving looking for distortion in images caused by gravitational lensing.

Planet Four, involving classifying features on the surface of Mars.

Gravity Spy will help LIGO improve their search for gravitational waves. At the time of writing it’s still in beta test mode.

Those are just a few of the individual projects that are available. The Planetary Society has an excellent web-page summary of different citizen science projects.

Figure 4: A screen capture of the Galaxy Zoo webpage. Credit: Galaxy Zoo.

Career advice

I’ve pulled together some career advice about becoming an astronomer:

Here are a collection of tweets by and responses to astrophysicist Katie Mack on "Advice for Aspiring Astrophysicists" with some tips for aspiring astronomers/astrophysicists in preparing for a possible career in the field.

Duncan Forbes wrote a paper called “So you want to be a professional astronomer” (click on “PDF only” in the upper right).

The Royal Museums Greenwich explains “How to become an astronomer”.

Here is advice from the National Optical Astronomy Observatory on “Being an astronomer”.

Here’s a brief explanation from Caltech about “How can I become an astronomer?”. Note there is a problem with the link to the AAS career brochure at the end. This is the correct link (


  1. Dear you just nailed it with this post. Astronomy is really a fascinating field. I am amazed to see how well research you did for this topic and with some relative images and helpful links. Great work!

  2. (3)...interstellar travel (thousands G of constant acceleration)... Gravity is a fundamental property of the Matter. Perhaps each material particle would work how a microsphere which emits, would be gravitons = PHOTONS, waves in straight line at all space directions. By some reason in magnetic substances these photon waves straight lines perhaps would braid among adjacent microspheres forming supposedly Gravitational Cords that already do not go in straight line faraway, but go in that object to a equilibrium point, the Pole, converging by exterior attracted by the Gravitational Cords from the other Pole...the "magnetic field". In the stellar Fusion is minimum the matter quantity that transforms into Energy, but if someday is obtained the matter/antimatter annihilation to exponentially convert all the mass into Energy (photons), perhaps would have a spectacular increment of the Gravitational Force during the action. So the Electromagnetic Force would be in reality the same Gravitational Force, with photon as the same exchange particle, presented at "other format". (How the Nature repeats successful designs...electromagnetic and gravitational forces, both attract things: electromagnetic attracts magnetic substances...gravitational attracts all...and there are some substances that rotate the plane of polarization of light, then perhaps... Electromagnetic Force: in magnetic substances the supposed photons Gravitational Cords...e.g. braided to the right: same Pole repulsion, and braided to the left: same Pole repulsion. Pole braided to the right against Pole braided to the left: attraction... Gravitational Force: perhaps could be something similar but inverse...e.g. photons Gravitational Cords braided dextrorotatory: from Matter...and braided levorotatory: from Antimatter... Gravity: matter/matter, attraction. Antigravity: antimatter/antimatter, attraction... Matter/Antimatter, repulsion)... If in the matter/antimatter annihilation could, instead of photons, be obtained antiphotons (antigravity) instead of attraction would have repulsion from the rocket engine toward the passengers, auto-synchronizing (major or minor↓↓↓↓acceleration...major or minor↑↑↑repulsion) rocket acceleration downwards with antigravity repulsion upwards for maintaining the living areas to 1g ↓ to thousands G of constant acceleration Starships...

  3. (4)...interstellar travel (thousands G of constant acceleration)... What is a Force?... Gravity...two objects attract between them emitting gravitons, how two pirate-ships hooked by ropes with hooks from the other... Each emitted gravitons perhaps would go invisibly united to its emitter object, such as if would go and elastic cord with infinite length and when arrives till the other object, by far that it is, "knows" toward where has that "pulling"...never are confused the gravitons emitted by different sources "pulling" toward do not is... The gravitons that come from Andromeda they "pull" toward Andromeda, and do not toward the Magellanic Clouds... That graviton comes climbing toward the steel object which fall from a tower...when arrives to the object, what finds?...sighted from its perspective finds which the object in reality does not exist...only "sees" a vacuum, here a nucleus of protons...far over there some electrons in orbit... Where "hooking for pulling" from this object which does not exist?, asks itself...also asks itself from where comes, how went emitted because over there also only was vacuum and some subatomic particles here and there... Ah, I know..."will hook" in the magnetic force lines which go away for this huge vacuum joining the nucleus of protons (+) with their far electrons (-), in these force lines made with Photons emitted from electrons...but, they are lines of electromagnetic force and I am a graviton... Ah, from there comes a graviton of here, from where comes?, perhaps from interior of some Proton where the gluons, what an adhesive!...indestructibly join quarks to form it...and goes to the place from where I come for make the same, "hooking for pulling". So that perhaps, Graviton hooks in Proton that seems strong... The Gravitational Force how solution...someday all spacecrafts always will go to thousands G of constant acceleration... The Universe is just there for us... What is a Force?...who emits it?...where it "hooks"?...

  4. (4b)...interstellar travel (thousands G of constant acceleration)... The entire Universe gyrating. The "phantom position"... LMC galaxy around the Milky Way... When it is in an orbital point emits its gravitons toward here..when it is to quite a few degrees from point before those emitted gravitons do not can "pulling" toward the already "phantom position" where LMC is not placed now, so that the Gravitons must have a quality of trajectories reorganization it depends moving of the object, the new emitted would go away auto-correcting the trajectories of the gravitons before for the attraction always being toward the actual position... Andromeda and Milky Way... The Photons it transit by the "phantom position" because we see Andromeda not only how it was 2 million years ago, but also "where it was" at that time. At different way those emitted Gravitons in each place then must go away course actualizing among them... Matter/Antimatter annihilation rockets... to 9800 kms/sec²... Day 508: Half Journey...1 million light years...high hyperluminal-speed = 0.0455 light years/sec... In 2.79 years, here is Andromeda... spherical\tridimensional\spatial Heading...intergalactic navigation in Starships to thousands G of constant acceleration...


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