Tag: Mars

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Almagest Book X: Correction for Equant – Third Opposition

In the previous two posts, we’ve been looking at how the apparent position of the center of a superior planet’s epicycle shifts position along the various circles. Specifically, we’ve been looking at how the angle between oppositions differs between the eccentre of mean distance and the equant circle.

In this post, we’ll do the same for the third opposition Ptolemy gave us. Unsurprisingly, the process will be largely the same as in the past two posts. Continue reading “Almagest Book X: Correction for Equant – Third Opposition”

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Almagest Book X: Preliminary determination of Mars’ Apogee & Eccentricity – Part 2

In the last post, we began the process of determining Mars’ eccentricity and the position of apogee. The technique is fundamentally similar to the three eclipse method used for the moon, but the presence of the equant is throwing a wrench in things.

Specifically, right at the beginning of the last post we had to make an assumption about $\angle BDG$ that we know was incorrect. We’re not quite ready to address that, but for now we’ll work on finishing finding the line of apsides as well as the eccentricity as if that assumption were correct. Then, in future posts, we’ll go about trying to iteratively correct that assumption. Continue reading “Almagest Book X: Preliminary determination of Mars’ Apogee & Eccentricity – Part 2”

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Almagest Book X: Observations and Introduction to Iterative Calculations for Apogee and Eccentricity

In the last Almagest post, Ptolemy explained that for the models of the superior planets, we’ll be needing to use oppositions. So with that explained, we’ll begin by working to develop the model for Mars by looking at its eccentricity and apogee. However, this isn’t going to be nearly as straightforward as it has been previously. As we’ll see, we’re missing some of the angles and arcs that would be needed for this. Thus, Ptolemy is going to use an iterative method to close in on them. Continue reading “Almagest Book X: Observations and Introduction to Iterative Calculations for Apogee and Eccentricity”

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Almagest Book IX: On the Order of the Spheres

Having laid out “the sum total of the chief topics one may mention as having to do with the fixed stars, in so far as the phenomena [observed] up to now provide the means of progress in our understanding” Ptolemy now moves on to “the treatment of the five planets” each one getting a book to itself.

But before diving in, Ptolemy first proposes that we “avoid repetition” by “explain[ing] the theory of the [planets] by means of an exposition common [to all five], treating each of the methods [for all planets] together.”

Beginning this discussion, Ptolemy introduces us to the order of the spheres for these planets, the sun, and moon. Continue reading “Almagest Book IX: On the Order of the Spheres”

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Data: Stellar Quadrant Observations – 7/27/18 (Mars Opposition)

One of the long term goals of this project is to collect enough data to derive the orbit of Mars. However, because Kepler didn’t know the orbit of Earth, he couldn’t use the observation on any given night. Instead, he only used observations from when Mars was at opposition1. This happened to be last night, so we packed up the quadrant and headed out.

Continue reading “Data: Stellar Quadrant Observations – 7/27/18 (Mars Opposition)”

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Astronomia Nova – Introduction

Kepler’s introduction to Astronomia Nova is somewhat of a lengthy ramble: 20 pages skipping from topic to topic and back again. In addition, he lays out somewhat of a preview of the structure of the book itself. But since we’ll be digesting that chapter by chapter anyway, I won’t discuss most of it and will instead sift through for the important parts. In addition, my summation won’t strictly follow the format Kepler does as I will try to group ideas on a similar topic.

The first important topic Kepler hits on is the

schools of thought among astronomers, one distinguished by its chief, Ptolemy… and the other attributed to more recent proponents [Copernicus], although it is the most ancient.

Continue reading “Astronomia Nova – Introduction”