Transcript Day 13
Announcements •Next exam is Thursday March 24. Will cover Chapters 6 & 7 and possibly some of Chapter 8. Sample questions are posted. •1st Quarter Observing Night Tuesday March 15 (first Tuesday after spring break). If clear, set-up starts at 6:30pm. If cloudy: 6:45pm. •Project presentations today! In 1596 a Frisian, David Fabricius, notices a “nova” in Cetus In 1638 another Frisian, Johannes Holwarda observes another “nova” in the same place By 1622 Johannes Hevelius figures it out He didn’t know why but he figured out that the two novas were actually a single variable star To aid in quantifying the variability of stars, William Herschel published a Catalogue of comparative brightness of stars Two York amateur astronomers had developed the star comparison technique while studying Algol John Goodricke worked with Edward Pigott The two amateurs also discover the variability of Beta Lyrae, Delta Cephei and Eta Aquilae Their original explanation of an eclipsing star was right for Algol Algol System They got confused when Delta Cephei and Eta Aquilae behaved differently Beta Lyrae is also an eclipsing binary If the stars change, do they also move? And how far away are they? Halley determined the Proper Motion of several stars by comparing “modern” positions to those of Ptolemy Attempting to measure parallax The problem required precise measurements free of atmospheric refractive effects Robert Hooke had a zenith telescope built into his house to measure Gamma Draconis He encountered several problems, including a cracked lens. Although he reported a parallax angle in 1669, no one believed him. Hooke and Wren build a zenith telescope into the Monument to the Great Fire In 1725, James Bradley had a zenith telescope built to measure parallax While attempting to measure parallax, he measured the Aberration of Light This was the first direct evidence for the motion of the Earth around the Sun Bradley also discovered the Nutation of Earth The primary cause is torque exerted by the Moon so the period is 18.6 years Bradley took reams of data to correct the positions of stars but died before reducing the data Fredrick Wilhelm Bessel undertook the data reductions and published them in Fundamenta Astronomiae Based on the positions calculated by Bessel, attempts to measure proper motion began Bradley pointed out that the motion was a combination of the stars motion and the motion of the solar system Tobias Mayer proposed a method of untangling the two motions but couldn’t see it in the available data Mayer looked for a pattern in the measured proper motions of stars It took the clever William Herschel to find the direction we are moving: towards Hercules His calculations were based on only a few stars but they gave the correct answer. When F. W. A. Argelander redid the calculation using almost 400 stars 50 years later he got almost the same answer.