Tonight’S Sky Is One In A Thousand
Time has come for purists to celebrate the turning of the millennium, which arrives tonight, 2,000 years after A.D. 1.
Staring up at the dark, moonless sky this New Year’s Eve, one might be tempted to imagine night travelers 10 or 20 centuries ago looking up at the very same sky and seeing the same stars.
But that would be wrong.
The night sky this month is quite different from the scene 1,000 years past. Tiny celestial motions, too small to notice from day to day, transform the heavens over time.
At midnight, for example, blue-white Sirius, the brightest star at night, will dominate the southern sky, and yellowish Capella will be at or near the zenith.
One millennium ago, Sirius was much lower, and Capella was nowhere near the overhead point.
The cause of these changes lies not in the stars but in ourselves: Earth’s axis wobbles like the shaft of a spinning top. That sweeping motion shifts not only the sky but also the seasons.
These days, the northern hemisphere is angled sunward on July 4, when our planet’s oval orbit takes us farthest from our star. The extra distance makes our summers a little cooler and more tolerable than they would be otherwise.
A dozen millennia back, the situation was reversed. The United States, Europe and Canada angled toward the sun just as it was closest to Earth.
The resulting 7 percent increase in summer solar intensity - and the equal reduction during winter - made for significantly harsher seasons.
We’re now at the maximally mild point in Earth’s 26,000-year axial wobble. For the next dozen millennia, winters will grow colder, summers more torrid. Sirius will dip lower until once again it vanishes.
Long before then, Polaris will no longer be the North Star. The baton will pass to a series of faint stars and then, around A.D. 9000, to bright Deneb.
Not all the sky’s transformations are caused by earthly motions. Some are genuinely celestial. Every 1,000 years, Sirius drifts south in the sky by nearly the diameter of the full moon, while Alpha Centauri slides more than two moon-widths to the west.
Yet one trustworthy companion will keep us company through the ages. Saturn shines brightly in each and every new-millennium sky because its orbital period of 291/2 years divides almost evenly into 1,000.
The ringed planet will continue to blaze for millennial celebrations well into the Denebera - as it has done since before humans discovered how to create fire.