AAS - 2024

The Winter American Astronomical Society (AAS) meeting is the largest meeting of professional astronomers in the world. NITARP educators attend an AAS first to meet their team, then they go home and work remotely for much of the year, and then attend an AAS to present their results. At any given AAS, then, we could have two NITARP classes attending - those finishing up, and those getting started. Reload to see a different set of quotes.

The 2023 and 2024 NITARP teams attended the 2024 January AAS meeting in New Orleans, LA. The 2023 class was presenting results and the 2024 class was starting up. We had alumni raise money to come back as well. We sent about 50 people to the AAS and had a grand time. Please see the press release on NITARP from the AAS, and the special online article about NITARP at the AAS. All of the posters we presented are here. (In addition to the iPoster sessions as listed here, the physical versions of the 2023 teams' posters were up at the IPAC booth all day Tuesday.)

2023 teams:

171.01 McKay et al., Young stellar students and objects: Illuminating astronomy research for students and teachers (Monday 5:30-6:30)
171.02 Hickey et al., Building Confidence and Combating Imposter Syndrome Through Student-Educator Research Projects (Monday 5:30-6:30)
171.05 Garcia et al., Reaching for the Stars: How Research Experience Has Expanded the Scope of a High School Astronomy Club (Monday 5:30-6:30)
181.01 Kuper et al., Looking for Young Stellar Objects in Obscure Sharpless Regions (Monday 5:30-6:30)
201.05 Carpenetti et al., Building a Catalog of AGN with Erroneous Parallaxes Using WISE and Gaia (Tuesday 9-10)

Alumni:

167.01 Sperling et al., Student-Led High Altitude Ballooning into Solar Eclipses (Monday 5:30-6:30)
171.03 Rebull et al., NITARP Lesson Plans: Bite-Size Pieces of Authentic Science Research Experiences (Monday 5:30-6:30)
171.06 Newland, Using Google Colab to Teach Hubble-Lemaitre's Law with BOSS Data (Monday 5:30-6:30)
176.02 Rebull et al., Young Stellar Object Candidates in IC 417 (Monday 5:30-6:30)
203.03 Wojciak et al., Exploring Color-Magnitude Relationships Among Quasars with z between 1.5-1.75 (Tuesday 9-10)
458.21 Jones & Rutherford, The Three-Dimensional Structure of IC 2391 (Thursday 1-2)

Quotes

Giving highly motivated teachers a community to build their skills is a critical component of professional development that isn’t always an option, especially in small districts or specialized areas. NITARP gives an opportunity for teachers from smaller or more rural communities to find colleagues to collaborate and provide opportunities for students they would not otherwise have.
[student:] After NITARP, I have a clearer idea of what the future as an astrophysicist may look like and I am more prepared with experience to reach my career goals.
[student: Now, after NITARP,] I am a lot more collaborative and open to working with people I don’t know as well. Additionally, I feel a lot more confident asking questions (especially in my science classes), as I’ve gotten to experience first-hand the value of engaging my curiosity in topics I’m interested in.
For me, the uncertainty associated with some of the data was surprising. In a chemistry context, where the researcher has control of the sample the data is much more direct, associating peaks in spectra with structure in the molecules is very direct. The idea that we are starting a project with a catalog of AGN, but are only 90% sure that the objects are AGN (R90) surprised me as I usually think of astronomy as much more mathematical and underestimate the differences in how data is collected compared to chemistry.
This experience has made me realize that anyone can participate in astronomy research and that even amateur astronomers are an important part of scientific discovery and research. I've always had the thought that astronomers need to be masters at physics and math, and that's true to an extent. However, there are ways to "do astronomy" without having a PhD in it.

AAS - 2024

Quotes

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