Difference between revisions of "All the NITARP videos in one place"
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=[[Using MaxIm DL]]= | =[[Using MaxIm DL]]= | ||
MaxIm DL is software that is very popular among the amateur community, and by extension, can often be found in classrooms. It is not free software. In 2011, NITARP teacher John Blackwell developed and kindly donated many training videos for learning how to use MaxIm DL. They are all linked from the [[Using MaxIm DL]] page. | MaxIm DL is software that is very popular among the amateur community, and by extension, can often be found in classrooms. It is not free software. In 2011, NITARP teacher John Blackwell developed and kindly donated many training videos for learning how to use MaxIm DL. They are all linked from the [[Using MaxIm DL]] page. | ||
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+ | =Using Kepler Data= | ||
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+ | These were created by John Blackwell (Exeter) for one of the 2011 NITARP teams. Note that they were developed using an earlier version of the NASA Exoplanet Archive's interface, but should still be helpful. | ||
+ | *http://youtu.be/3r0ltH9Ixg0 -- searching the Kepler database, obtaining light curves, periodograms, and interpreting the periodograms. (~4 min) | ||
+ | *http://youtu.be/lzrtQSxwajg -- more on Kepler light curves and periodograms, and how to do more sophisticated investigation of the light curves using the NASA Exoplanet Archive's tools. (~8 min) |
Revision as of 22:56, 14 August 2012
Contents
- 1 Intro to using the wiki
- 2 Searching the literature
- 3 Getting plain text (or IPAC table files) into Excel
- 4 Getting updated coordinates and checking images
- 5 Using the Spitzer Heritage Archive
- 6 Using the WISE archive
- 7 APT
- 8 Background astrophysics
- 9 Using ds9
- 10 Using MaxIm DL
- 11 Using Kepler Data
Intro to using the wiki
These were created to help all NITARP participants learn what the wiki is for and how to use it (for learning or contributing).
- Video overview of the Cool Wiki (~6 min)
- Video overview of how to edit the wiki (~10 min)
- Video overview of organization guidance (~4 min)
- Video overview with more advanced editing techniques (~6 min)
Bonus points if you can find the place in one of these videos where my cat meows.
(Corresponding wiki page with additional information: Guide to NITARP participants for use of the wiki)
Searching the literature
In order to find what you need out of the literature, you need to search both ADS and SIMBAD. This video shows you how.
- Searching the literature (~10 min)
(Corresponding wiki page with additional information: How can I find out what scientists already know about a particular astronomy topic or object?)
Getting plain text (or IPAC table files) into Excel
Much of the files that astronomers work with are plain text, which astronomers read into their own code (and spit back out from their code) with ease. If you don't program but still want to work with these files, you can read them into Excel and do calculations and plots from that platform. But you have to get them into Excel first.
Getting updated coordinates and checking images
If you have a paper in the literature that was done in the 1970s or earlier (even, for some papers, later), chances are excellent that the coordinates as reported in the literature are not as precise as you need them to be for working with 2MASS, Spitzer, and/or WISE data. How do you get better coordinates for these objects?
- Video overview of how to use 2MASS to get updated coordinates for a source from the literature (~3.5 min)
As part of this process of getting updated coordinates, you might want to actually check the images. This is always a good idea.
Using the Spitzer Heritage Archive
These videos were developed with professional astronomers in mind, but they probably are ok for you too!
- SHA QuickStart video (7.5 min).
- SHA intro, the long version (13.5 min).
(Corresponding wiki page with additional information: How do I download data from Spitzer?)
Developed for NITARP: Why do you get 'extra' data with some Spitzer observations?
Using the WISE archive
- This page includes all of the videos developed by IRSA for professional astronomers using WISE. I am linking to this page rather than the videos directly because (a) they are developed by other people here at IPAC, not necessarily me; (b) more are planned soon.
(Corresponding wiki page with additional information: How do I download data from WISE?)
APT
The Aperture Photometry Tool (APT) was originally developed in the context of NITARP teams learning how to do photometry on Spitzer images. It can be used to do aperture photometry on nearly any FITS image.
- Video overview of APT, from installation through doing photometry. (~14 min)
(Corresponding wiki page with additional information: Photometry and I'm ready to go on to a more advanced discussion of photometry)
Background astrophysics
- Video of a variety of blackbody curves, where temperature changes, and the locations are indicated for several common broadband filters. (~30 sec)
- Video of a variety of blackbody curves, where reddening changes, and the locations are indicated for several common broadband filters. (~1 min)
(Corresponding wiki page with additional information: SED plots)
Using ds9
I don't have a generic intro to ds9 (maybe I should make one) but here is a video on regions files:
Using MaxIm DL
MaxIm DL is software that is very popular among the amateur community, and by extension, can often be found in classrooms. It is not free software. In 2011, NITARP teacher John Blackwell developed and kindly donated many training videos for learning how to use MaxIm DL. They are all linked from the Using MaxIm DL page.
Using Kepler Data
These were created by John Blackwell (Exeter) for one of the 2011 NITARP teams. Note that they were developed using an earlier version of the NASA Exoplanet Archive's interface, but should still be helpful.
- http://youtu.be/3r0ltH9Ixg0 -- searching the Kepler database, obtaining light curves, periodograms, and interpreting the periodograms. (~4 min)
- http://youtu.be/lzrtQSxwajg -- more on Kepler light curves and periodograms, and how to do more sophisticated investigation of the light curves using the NASA Exoplanet Archive's tools. (~8 min)