Although time and its measurement is a fundamental component of human life, a special type of clock which takes matters to the next level is the so-called astronomical clock and whose purpose is not to measure time per se but to convey astronomical information and, in particular, the relative position of the Sun and Moon as well as the zodiacal constellations and, in some cases, the position of the planets all as a function of time.

The oldest such effort to effectively emulate the overhead celestial sphere (ie a mini-planetarium) is the Antikythera Mechanism which was discovered in 1901 totally by accident by sponge divers off the coast of the Greek island of Antikythera. It has been dated to approximately 80 BC and it is believed to be the work of Poseidonius of Rhodes. The Antikythera Mechanism is currently on display at the National Archaeological Museum in Athens, Greece.

Note: The astrolabe is yet another instrument constructed to describe the overhead sky and monitor time. Some versions also have religious implications such as the Muslim Qibla where a magnetic compass on the back side of the astrolabe helps the user identify the proper orientation so as to point at Mecca for prayer. It is believed that astrolabes were first developed by the Greeks around the second century BC and were slowly adopted throughout the known world of the time by numerous cultures. Astrolabes describe the position of the planets and prominent stars visible at a particular latitude (see curved markings on each dial in the photo below) and, by extension, act as time-keeping devices. Similarly, they assist in the time of expected sunrise which is vital for the Muslim religion and the timing of morning prayers. Today's planispheres can be said to be a direct extension of the ancient astrolabe, for they function and inform the user of precisely the same information sought-after by users many centuries ago.

The brass astrolabe quadrant below is one of approximately twenty-five astrolabe quadrants on display at Museo Galileo in central Florence. Astrolabe quadrants were simplified versions of the more complicated standard astrolabe and were usually made either of wood or brass with a very small number made of other materials including iron and ivory. The brass quadrant below measures 17.2 cm in both height and width, is dated 1553 AD and is believed to be from Naples. Regrettably, the craftsman behind this quadrant is unknown aside from the initials "A.D." inscribed at the bottom of the front side. A graduated arc along the quadrant's curved periphery at the bottom representing 90 degrees starts from the bottom left corner and continues onto the right corner with demarcations and text for every five degrees. Immediately below is a supplementary arc with equally spaced squares, alternating in shading, with five such squares for each marking in the arc immediately above and which effectively provides one-degree markings for each five-degree interval. The apex of the quadrant normally holds a plumb bob which swings depending on the angle produced when aligning the quadrant's sighting scope with the celestial object of interest, thus immediately providing the altitude of the object such as the daytime Sun using the aforementioned graduated arcs. The determination of the altitude of a celestial object immediately allows one to identify the local time and, hence, astrolabes and quadrants were vital timing devices and clocks. The central portion of the quadrant is comprised of a number of concentric circles with constellation and calendar information starting with the twelve zodiacal constellations on the outermost ring (ex. Cancer at the top and right of center, followed by Leo, Virgo etc); the calendar days for each month in three groups of ten days followed by an inner ring of five demarcations for each 10-day internal; the abbreviated names of the months follow in the following inner ring (ex. IVNIVS (JVNIVS) for June, IVLIVS (Julius) for July etc) and a clock using a 24-hr format in the inner ring thereafter. Finally, the central core is divided into twelve sections with other constellation details and information.

The historic center of Florence is characterized with a number of epic museums (with very impressive collections) which are a must-see while visting the city. One such museum is the impressive Museo Galileo (Galileo Museum) and which was originally named Museo di Storia della Scienza (History of Science Museum) owing to its rich collection of scientific instruments including many astrolabes, horary quadrants, nocturnals, sundials, armillary spheres as well as Galileo's instruments including his telescopes. The museum's collections are displayed across two floors and eighteen thematic rooms including "Astronomy and Time" (Room II), "The Science of Navigation" (Room V), "The Science of Warfare" (Room VI), "Galileo's New World" (Room VII), "After Galileo: Exploring The Physical and Biological World" (Room IX), "The Spectacle of Science" (Room XI), "Measuring Natural Phenomena" (Rooms XV and XVI) and "Science at Home" (Room XVIII). Museo Galileo is open daily between 09:30 and 18:00 except for Tuesdays when it is open 09:30 to 13:00. Admission costs 13 euro and one can easily be engaged for a number of hours. The Museo Nazionale del Bargello with its magnificent collection of art and sculpture masterpieces is less than 400 meters to the north and only a few minutes away by foot with two astrolabes and an astrolabe quadrant in its collection and on display whereas the Fondazione Scienza e Tecnica with its impressive collection of scientific instruments from the nineteenth and twentieth centuries is 1200 meters further north and boasts a Galleria dell'Astronomia with a rich suite of astronomical instruments including an astrolabe.

Note: Due to the impressively very fine detail in the horary quadrant below, the resampling leads to a loss of fine detail which is otherwise available when examining the original high-resolution image. For two sample segments at 100% resolution, please click here and here.

Note: For additional results involving astronomical clocks and astrolabes from around the world, please click here.