Mark your calendars for March 16 through 28. Don't ask why, yet. Now, read on….

Composite image showing centers of urban light emission
Credit: NASAWant a chance to do some "citizen" science, contribute to an international investigation, and have some fun to boot? An opportunity is coming up in March: Globe At Night. All you need is your eyes….

The problem is summed up in two words: light pollution. A good deal of light produced by human civilization–streetlights, porch lights, shopping malls, security lighting, night time work lights, store fronts, parking lot lights, billboards, neon signs, the list is lengthy–shines or reflects upward into the atmosphere, there scattering off of suspended particles, like dust grains, water droplets, ice crystals and the like.

The scattered light shines back down from the sky, and we see it as a dull nocturnal glow, sometime faint, and sometimes quite pronounced. The amount of scattering particles in the air has an effect on the brightness of the night sky, but the root of the matter is the amount of light sources whose light escapes upward. The closer you are to the heart of an urban area, the more light pollution you will be subjected to.

So what? What's so harmful about that sky glow? Sometimes it can even look kind of pretty….

Well, the fact is, if you've never seen a clear night sky far from sources of major light pollution, you may not appreciate what you're missing: the sight of a clear and dark night sky in which you can literally see thousands of stars. And if you have seen a pristinely dark night sky before, think about the fact that, in 2008, half the population of the Earth was living in cities, many of whom may never have been out of their urban worlds, and for whom the night sky is naturally a dull version of day with a handful of washed out stars above.

There are also effects of light pollution on wildlife that include disturbance of day/night sleep cycles, less cover of darkness from predators, and even effects on plant life.

Globe At Night is a program that's been going on for a few years now whose aim is to measure and monitor the varying levels of light pollution around the world by using individual people as the instruments of measurement.

And it's pretty simple to participate in. The idea is that the brighter the light pollution is in any given location, the few stars you can see. The faintest stars quickly become drowned out in the sky glow, leaving only the brighter ones for your eyes to pick out. All you have to do is go outside on one or more nights in the last half of March, find the constellation Orion (which is pretty easy to find, even in a city), and count the number of stars you see there. Then, report your count through the Globe At Night website, where you'll also be able to see the observations of everyone else around the world, as well as find full instructions for participating.

Now, calendars marked? Know where Orion is? Have a sweater handy? You're all set….

For this past patriotic weekend, I was on the other side of the coast. Namely, driving from Washington DC into the rural wilderness of Virginia for a get away. It was not the man-made fireworks that grabbed my attention but the activity of thunderclouds.

I was reading out loud as we drove down I-64 towards an ever darkening sky. My friend, Brad shushed me at one point to concentrate on driving. I looked up to see why and was stunned. A sheet of water and staccato pulses of hail and lightning were all I could see. It reminded me of the intensity of being caught in blizzard conditions while driving toward Tahoe in Northern California. But here we were, in Virginia on a very warm and balmy day and the sky had literally opened up with water. What's more, hail was falling. I turned to Brad and asked how could hail exist in such warm conditions? He was stumped and I was fascinated.

With a little detective work, I came up with an answer to the dilemma. Hail is only produced in cumulonimbi clouds (thunderclouds). They usually only occur at the front of a storm system which was what we experienced. The hail hit in the first ten minutes and then was followed by heavy rain. However, the rain was warm to the touch unlike the frozen water making up the hailstones.

The fire in the nearby Great Dismal Swamp National Wildlife Refuge and incredibly hot and humid conditions in Virginia created ideal conditions for hail. Hail is created inside a thunderstorm that has strong updrafts of warm air and downdrafts of cold air. A water droplet with an apex point is picked up by the updrafts and travels into the cooler air and freezes. The apex point known as the condensation nuclei in the water droplet was probably dust from the fire or nearby salt water during this particular hailstorm. (Both Brad and I experienced dry and stinging eyes after going into one of the storms later that weekend, much like the stinging of salt water.) Layers of ice are then accumulated around this nuclei as the droplet goes through a cycle of being caught in an updraft and then carried beyond the freezing level of the atmosphere and then thawing partially in entering the warmer air on a downdraft. This cycle repeats itself creating increasing layers of ice. Then as some point this frozen water droplet with several irregular layers falls to the ground as hail.

Some of the largest hailstones have been recorded during summer storms in humid climates because the warm updrafts and cold downdrafts along with high surface heat create an optimal cycle for large hail. Smaller hailstones can be coupled more easily with larger hailstones in these conditions.

Video of Large Hailstones

Over the course of the weekend, we had three more thunderstorms (one of which broke a car back window nearby) and we kept an eye on a thundercloud that looked like it wanted to become a tornado. I came home very thankful for the fog! NOAA the National and Atmospheric Administration has a National Weather Service. At http://www.weather.gov/ anyone can check weather reports in any given area. To issue proper warnings and forecasts regarding hail, the National Weather Service uses a network of NEXRAD doppler radars to detect it. Hail size and probability can be determined from radar data by a computer by different algorithms and compared to the local atmospheric data to determine the threat level.

It seems the storms have not cleared yet throughout the area in Virginia we visited– severe thunderstorm warnings are still posted on NOAA. So the fireworks might have passed but thunderclouds are still lighting up the sky.

Depiction of a major alignment of
the five visible planets in 1059 BCE.

Photo By Ben Burress

There are some pretty good "lineups" coming soon to skies above you.

First of all, "lineups," or alignments, go on in the heavens all the time, though most often they are alignments of objects too faint to easily notice, if at all. With that said, this summer holds some significant alignments of some of the brightest objects in the sky.

First on my hit list is the upcoming Saturn-Mars "near-miss". Though these two planets are not coming physically close to each other (the closest actual distance they come to each other is about 750 million miles), they will align so closely along the same line of sight that on July 11^th they will appear only ¾ of a degree apart-that's not much greater than the width of a Full Moon. The best time to see this pairing is after sunset on the evenings of July 10, 11, and 12, over the western horizon.

The next big ticket alignment is on August 1^st, when the Moon and the Sun occupy the same spot in the sky-the event we call a Total Solar Eclipse. As it happens, we won't be able to see this eclipse directly from the United States, as it will only be visible in Asia. However, NASA will be broadcasting live coverage of the eclipse from Northern China. We'll be showing NASA's broadcast in our planetarium at Chabot Space and Science Center, in case you'd care to come up and enjoy the spectacle. Don't let the fact that the live event goes on around 4:00 AM keep you away…it's worth getting up for!

A bit further out on the calendar is the September alignment of three planets: Venus, Mars, and Mercury. In the dusky twilight of mid-September evenings the three will be gathering. The closest grouping of the trio is on September 11^th, when they will be within about three degrees of each other-close enough that you can just about cover all three with your thumb. Mercury and Mars won't be very bright in the twilight-but Venus, bright enough to spot easily, can help guide your eye to the other two. Using a pair of binoculars will help a lot-but make sure you don't point them that way until after the Sun sets….

In ancient times (and in some cases not so ancient times), different cultures around the world have viewed alignments like these in different ways. Eclipses-both solar and lunar-were regarded by many cultures as bad omens, or bad occurrences (such as the Sun being devoured by a celestial animal-dragon, dog or other-in the case of a solar eclipse).

Planetary alignments were also given special consideration, sometimes being regarded as auspicious (for good or bad-usually the latter). One major alignment of the five visible planets (February 26, 1953 BCE) was believed to have "mandated" the creation of the Hsia Dynasty in China-the first great Chinese Dynasty. (Then, four centuries later, Mars, Mercury, Jupiter and Saturn apparently conspired to bring down that same dynasty-at least, their alignment on December 20, 1576 BCE was interpreted as an indicator of the dynasty's corruption, and it was overthrown by a revolt of believers…).

However you regard the lining up of celestial bodies (astronomically, astrologically, or aesthetically), these alignments are pleasing to watch, and times to reflect upon the constant and cyclic movement among the heavens. Enjoy….