Recurring

CLOCKS, CALENDARS, COORDINATES, ORBITS

Zoom

Wednesdays, 7 PM. March 30; April 6, 13, 27; May 4, 11

The measurements of time in hours, days, months, and years has astronomy roots. Historically, calendar dates were particularly complex to fix in all cultures because the Earth, moon, and sun have revolution rates that are not simple multiples. Objects in the sky and in space are assigned coordinates using different systems. These coordinates are vital to determining and specifying the motions and orbits of space objects. It takes six parameters to specify an orbit. We explore these themes.

Recurring

CLOCKS, CALENDARS, COORDINATES, ORBITS

Zoom

Wednesdays, 7 PM. March 30; April 6, 13, 27; May 4, 11

The measurements of time in hours, days, months, and years has astronomy roots. Historically, calendar dates were particularly complex to fix in all cultures because the Earth, moon, and sun have revolution rates that are not simple multiples. Objects in the sky and in space are assigned coordinates using different systems. These coordinates are vital to determining and specifying the motions and orbits of space objects. It takes six parameters to specify an orbit. We explore these themes.

Recurring

CLOCKS, CALENDARS, COORDINATES, ORBITS

Zoom

Wednesdays, 7 PM. March 30; April 6, 13, 27; May 4, 11

The measurements of time in hours, days, months, and years has astronomy roots. Historically, calendar dates were particularly complex to fix in all cultures because the Earth, moon, and sun have revolution rates that are not simple multiples. Objects in the sky and in space are assigned coordinates using different systems. These coordinates are vital to determining and specifying the motions and orbits of space objects. It takes six parameters to specify an orbit. We explore these themes.

Recurring

CLOCKS, CALENDARS, COORDINATES, ORBITS

Zoom

Wednesdays, 7 PM. March 30; April 6, 13, 27; May 4, 11

The measurements of time in hours, days, months, and years has astronomy roots. Historically, calendar dates were particularly complex to fix in all cultures because the Earth, moon, and sun have revolution rates that are not simple multiples. Objects in the sky and in space are assigned coordinates using different systems. These coordinates are vital to determining and specifying the motions and orbits of space objects. It takes six parameters to specify an orbit. We explore these themes.

Recurring

CLOCKS, CALENDARS, COORDINATES, ORBITS

Zoom

Wednesdays, 7 PM. March 30; April 6, 13, 27; May 4, 11

The measurements of time in hours, days, months, and years has astronomy roots. Historically, calendar dates were particularly complex to fix in all cultures because the Earth, moon, and sun have revolution rates that are not simple multiples. Objects in the sky and in space are assigned coordinates using different systems. These coordinates are vital to determining and specifying the motions and orbits of space objects. It takes six parameters to specify an orbit. We explore these themes.

Recurring

CLOCKS, CALENDARS, COORDINATES, ORBITS

Zoom

Wednesdays, 7 PM. March 30; April 6, 13, 27; May 4, 11

The measurements of time in hours, days, months, and years has astronomy roots. Historically, calendar dates were particularly complex to fix in all cultures because the Earth, moon, and sun have revolution rates that are not simple multiples. Objects in the sky and in space are assigned coordinates using different systems. These coordinates are vital to determining and specifying the motions and orbits of space objects. It takes six parameters to specify an orbit. We explore these themes.