By request, here is a book list. In no particular order, these are the books I used, referenced, or mentioned this summer, in or out of lecture
- An Introduction to Galaxies and Cosmology, Jones & Tambourine
- An Introduction to Modern Astrophysics, Carroll & Ostlie
- A History of Astronomy from Thales to Kepler, Dreyer
- Data Reduction and Error Analysis for the Physical Sciences, Bevington & Robinson
- Heavenly Mathematics: The Forgotten Art of Spherical Trigonometry, Van Brummelen
- Textbook on Spherical Astronomy, Smart
- Astronomical Algorithms, Meeus
- Turn Left at Orion, Consolmagno & Davis
- To Measure the Sky, Chromey
- Handbook of CCD Astronomy, Howell
- Observational Astronomy, Birney, Gonzalez, & Oesper
- Seveneves, Stephenson
- The Island of the Day Before, Eco
- Longitude, Sobel
- The Infinity of Lists, Eco
- Methods of Orbit Determination for the Micro Computer, Boulet
- Fundamentals of Celestial Mechanics, Danby
- Superman: Red Son, Millar
- Galileo’s Daughter, Sobel
- Letters to Father, Sobel (trans.)
It’s maybe a little rough around the edges still, but we’re effectively out of time, so it’s done. I wanted to thank everyone who put some time into this extra project. I’ve tried to do a parallax project every summer since 2012, and this is the first time it’s worked out.
- Team Pie-thons (Annie Chen, Kathryn Chan, and Daniel Michael) for their observing
- Nathaniel Steenhuis for organizing the data reduction
- Victor Qin, Nick Becker, Chris Wang, Arpit Kalla, and Jason Kim for the data reduction
- Abby Stein, Daniel Michael (again), Arpit Kalla (again), Chris Wang (again), Alex Davenport, Victor Qin (again), Luke QI, Afura Taylor, and Nick Becker (again) for analyzing the data and/or writing the report.
We calculated 2002 KL6 to be about 0.071 +\- 0.001 AU away from Earth, which is only 0.5% off from the JPL Horizons predicted distance. Nice job, everyone!
- finds their asteroid for the first time
- tells me how much fun she’s having working on a conservation of angular momentum problem at 11pm on a Saturday night.
- realizes I’ve never done a differential correction, but I’m asking them to do it anyway
- stays up late helping a teammate debug a code
- realizes the stuff he heard in the classroom is not enough to answer a question on the problem set
- looks up additional ways to solve the problem because the two ways presented in lecture and the handouts just isn’t enough ways
- decides to spend their last summer as a high-school student away from home learning about astronomy, physics, and coding instead of making pizzas for $5/hr under the table like I did when I was their age
Damn, I love this job.
Here’s the link to a PDF showing how much is owed per person for the t-shirts. Copies have also been posted in the computer labs and Driscoll. Please give your money to Rebecca by Monday so she can mark you off as paid. Please use exact change if you can ☺
So it turns out there’s nobody scheduled for Wednesday observing. Period. Not on the blog. Not outside the TA office. Not in the staff’s internal files.
Here is what we’re going to do. We are going to observe every asteroid tonight. No Observing notebooks. No regular teams. There are twelve teams. Each team pick one person to observe tonight. We will send you up in groups of 4 – early, middle, late. Please organize this amongst yourselves. I’ll be over in the computer lab in a little while to figure this out.
Oh, and no flat-field chore tonight. If it’s cloudy, I’ll get them personally during the night tonight. If it’s clear all night, the flats team will get them tomorrow after dinner. For now, use the week 4 flats for all your reduction needs.