''Urania Propitia'' () is a book of

astronomical tables In astronomy and celestial navigation, an ephemeris (pl. ephemerides; ) is a book with tables that gives the trajectory of naturally occurring astronomical objects as well as artificial satellites in the sky, i.e., the Position (vector), positio ...

written by Maria Cunitz and published in 1650. As Maria Cunitz was the daughter of both a physician and mathematician, it was her ability to grasp complex mathematics quickly and transcribe her findings as a

polyglot Multilingualism is the use of more than one language, either by an individual speaker or by a group of speakers. It is believed that multilingual speakers outnumber monolingual speakers in the world's population. More than half of all Eu ...

that allowed her to do what few women had done before her.

Introduction

''Urania Propitia'' was a simplification of the ''

Rudolphine Tables The ''Rudolphine Tables'' ( la, Tabulae Rudolphinae) consist of a star catalogue and planetary tables published by Johannes Kepler in 1627, using observational data collected by Tycho Brahe (1546–1601). The tables are named in memory of Rudolf ...

'' written by Johannes Kepler in 1627. Kepler's dedication to Emperor Ferdinand II which was originally dedicated to

Rudolf II Rudolf II (18 July 1552 – 20 January 1612) was Holy Roman Emperor (1576–1612), King of Hungary and Croatia (as Rudolf I, 1572–1608), King of Bohemia (1575–1608/1611) and Archduke of Austria (1576–1608). He was a member of the Hous ...

was filled with complex and tedious logarithms. Cunitz found many errors within the Rudolphine Tables. The simplifications to these tables were published as the Urania Propitia. In Urania Propitia, Cunitz removed logarithms from Kepler's work, which increased the accuracy and simplified the calculations from the Rudolphine Tables. Cunitz omitted some coefficients from her equations, leading to inaccuracies within her work. Astronomical tables of the time all contained computational errors, so despite these errors, Urania Propitia is seen as more accurate than Kepler’s work. The tables are mostly astrological, but the instructions are completely astronomical. Urania Propitia was published in Latin and German. The German publication is credited as a source that led to establishing German as a scientific language. The publishing Urania Propitia is credited for making astrological tables more accessible outside of universities. Beyond the instructions, Maria Cunitz's book is split into three parts.

Part 1: Tables for spherical astronomy

The first part is the mathematical starting point. These include "

sexagesimal Sexagesimal, also known as base 60 or sexagenary, is a numeral system with sixty as its base. It originated with the ancient Sumerians in the 3rd millennium BC, was passed down to the ancient Babylonians, and is still used—in a modified form ...

sines, solutions of small right triangles in minutes and seconds, and tables for spherical astronomy for degrees of the ecliptic of: declination, right ascension, oblique ascension for latitudes 0 degrees to 72 degrees at 2 degree intervals..."

Part 2: Tables of average motions

It is the second part that the heart of Maria Cunitz's simplification is brought forward. Using the geometry and spherical astronomy from part one, Cunitz brings the rotational motions of the planets and moons into light using various mathematical formulas. One of the formulas from the Rudolphine Tables, :

M = E - e  \sin E

where ''e'', ''M'' and ''E'' denote the orbital eccentricity, the mean anomaly and the eccentric anomaly. This equation is known as "

Kepler's equation In orbital mechanics, Kepler's equation relates various geometric properties of the orbit of a body subject to a central force. It was first derived by Johannes Kepler in 1609 in Chapter 60 of his ''Astronomia nova'', and in book V of his '' Epi ...

" which normally has no "geometrical or algebraic solution for ''E''." However, when ''M'' is given it becomes more possible to but find "''E'' from ''M'' to any degree of precision by iteration or interpolation." The major accomplishment Cunitz brought was the ability to compute

\upsilon

(the true anomaly) from ''M'' without the necessity to use "''E'' as a coefficient of interpolation". Thus, Cunitz was able to simplify the Rudolphine Tables and determine the position of a planet in its orbit as a function of time.

Part 3: Tables for computation of eclipses

These tables were used for both the location of eclipses and the time of eclipses. This includes the use of the "golden astronomical number", the parallax of the moon and sun in a variety in longitude, latitude, altitude, etc..., and a catalog of other fixed stars in the universe.

Cosmology

Cunitz's cosmology has variations of both

Tycho Brahe Tycho Brahe ( ; born Tyge Ottesen Brahe; generally called Tycho (14 December 154624 October 1601) was a Danish astronomer, known for his comprehensive astronomical observations, generally considered to be the most accurate of his time. He was ...

and Johannes Kepler. While the basic structure of her cosmology is like Tycho's with the Sun and Moon orbiting around the Earth while the rest of the planets orbit around the Sun, the physics within the cosmos involves ellipticals and "aphelions."

Historical significance

Beyond the rewards that came from a simplification of the ''

'', a scientific advance written by a woman in the seventeenth century was an accomplishment in itself. It was described by Noel Swerdlow as "the earliest surviving scientific work by a woman on the highest technical level of its age." It was common for male scientists before Maria Cunitz to attribute their discoveries to muses. For ''Urania Propitia'',

Urania Urania ( ; grc, , Ouranía; modern Greek shortened name ''Ránia''; meaning "heavenly" or "of heaven") was, in Greek mythology, the muse of astronomy, and in later times, of Christian poetry. Urania is the goddess of astronomy and stars, he ...

Greek mythology A major branch of classical mythology, Greek mythology is the body of myths originally told by the ancient Greeks, and a genre of Ancient Greek folklore. These stories concern the origin and nature of the world, the lives and activities ...

was the muse of astronomy, and '' propitia'' is "favoring" or "beneficent" in Latin. This suggests that Maria Cunitz both saw Urania as her muse while also making strides for women as scientists, because she could be so easily compared to the ancient Greek astronomer. ''Urania propitia'' was privately published and as of 2016 there are nine physical copies in the world along with multiple online copies. Physical copies can be found in the Library of the Astronomical Observatory of Paris, Library of the University of Florida, in the exhibit of Galileo and Kepler at the University Libraries of Norman, Oklahoma, and Bloomington Lilly Library of Indiana University. Prior to June 10, 2004 the first edition of ''Urania propitia'' was located at The Library of The Earls of Macclesfield in the Shirburn Castle: Part 2 Science A-C section. The book was sold at the Sotheby's auction house for $19,827 USD.

References

{{Reflist

External links

Digital scan of ''Urania Propitia''
''- Wroclaw University Library'' 1650 books 1650 in science 17th-century Latin books Astronomical tables German-language books Mathematics books