The galaxy just got bigger: Calling all future space explorers to Family Space Day!

ATTENTION FUTURE SPACE EXPLORERS: NASA has just discovered 715 new planets for you to study and learn.

But let’s back up a second.

Launched in 2009, the Kepler space observatory has been scanning the heavens for earth-like exoplanets — planets existing outside our solar system. The observatory has been able to detect strong possibilities of planets, but they needed confirmation. Mountains of data have been sent to scientists on the ground to confirm the existence of these exoplanets.

While this process has been grueling and slow going, it resulted in several hundred confirmations. However, yesterday NASA announced the discovery of 715 new planets orbiting 305 stars — boosting the number of verified exoplanets by 70%.

Kepler has collected this data by detecting the transit of planets across their stars. When planets transit (i.e., cross in front of) a star, the star’s brightness appears to dim by a small amount. The amount of dimming depends on the size of the star and object revolving around it. This process can give false-positives, however, which has necessitated that the data be confirmed by scientists on the ground.

So what’s changed?

The way scientists were sifting through the data has changed. You see, it’s much easier to confirm the existence of planets when they are part of a multi-planet system. Readings that indicate multi-planet systems exist are difficult to explain as anything other than a multi-planet system — as opposed to single planet systems that could be explained by other phenomena. Therefore, by focusing on the data from what appeared to be multi-planet systems, scientists have been able to sift through and confirm the data at a much more rapid pace.

So what’s out there?

Ninety-four percent of the planets discovered are smaller than Neptune (that is, they’re four times larger than Earth or smaller). The number of planets with 2R (double the Earth’s radius) or less has increased 1,000 percent. Our total count of exoplanets now stands at 1,700 — which NASA planetary scientist Jack Lissaur has described as a “veritable bonanza of new worlds.”

So if you’ve got a future space explorer in your family, there’s never been a better time to get excited about space adventures — just in time for our Family Space Day at the George Observatory this Saturday.

Experience what it’s really like to be an astronaut-in-training with a simulated mission. Volunteers from NASA will guide you and your family on your mission — ensuring safe travels — as you transform into astronauts, scientists and engineers flying through space.

A perfect activity for the whole family, the flight simulation is open to adults and children 7 years and older (children ages 7 to 9 must be accompanied by a chaperone), and a minimum of 10 participants per mission is required.

Don’t miss this chance to participate in real astronaut training at the George Observatory! Click here or call (281) 242-3055 for details.

2009: International Year of Astronomy

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Creative Commons License photo credit: judepics

We could say that modern astronomy began in 1609.  That was the year when the telescope, invented by the Dutch in 1608, was first used to observe and describe celestial objects.  Until telescopes were used, astronomy was primarily about measuring the positions of the Sun, Moon, and planets in the sky.  This helped early astronomers make calendars and to plan their harvests, but people were unable to study the celestial bodies and learn their characteristics.  A recently discovered lunar map indicates that Thomas Harriot of England was the first to observe and draw a magnified image of the Moon in July 1609. 

Galileo Galilei, of course, is most well-known for building and using early telescopes.  He did his lunar observations in December 1609 while observing from Padua, Italy.   The prevailing idea at the time was that everything in the heavens had to be perfect and unblemished.  Drawings of mountains, valleys, and craters on the Moon contradicted this idea, showing the Moon to be an ‘imperfect’ world like Earth.  As Galileo published his drawings and Harriot did not, Galileo gets the credit for changing our concept of the universe, helping us realize that celestial bodies are worlds and not just sources of light.

On January 9, 1610, Galileo saw three ‘fixed stars’ next to Jupiter.  Four days later he discovered a fourth and realized that these ‘stars’ orbited Jupiter.  Today, those four moons– Io, Europa, Ganymede, and Callisto, are called the Galilean moons.  The direct observation of moons orbiting Jupiter disproved Claudius Ptolemy‘s model of the universe, already centuries old at the time, which held that all bodies in the universe orbited the Earth.

Moon n Venus played hide-and-seek
Creative Commons License photo credit: voobie

In December 1610, Galileo observed Venus and saw that Venus showed phases like the Moon’s when magnified in his telescope.  This meant that sometimes the sunlit side of Venus faces Earth, while at other times we see the night side, although Venus is never opposite the Sun in the sky.  This could happen only if Venus orbits the Sun rather than Earth.

By the way, Galileo did far more than just astronomy.  Rice University’s Galileo Project has more on his extraordinary life, including a timeline.

It was also in 1609 that Johannes Kepler published his New Astronomy, containing his first two laws.  The first law states that each planet’s orbit is an ellipse rather than a perfect circle.  The second law states that a planet sweeps out equal areas in equal times.  Kepler published his third law, which relates the square of a planets period (time for one orbit) to the cube of its average distance, in 1619. 

This makes 2009 the 400th year of modern astronomy.  Appropriately, the United Nations declared this year to be the International Year of Astronomy.  At that link, you can learn about events taking place all over the world promoted by the International Astronomical Union (IAU) and the United Nations Educational, Scientific, and Cultural Organization (UNESCO).  Their goal is for people all over the world to discover the wonders of the sky and to appreciate our place in the universe.

Star Cloud Over Saskatchewan.jpg
Creative Commons License photo credit: Space Ritual

You can participate in the International Year of Astronomy right here in Houston.  Several of the Fun Hundred events we’ve set up to celebrate our 100th anniversary are astronomy-related.  They include Sun-Earth Day at the vernal equinox, our annual viewing of the Perseid meteor shower in mid-August, members nights at the George Observatory, and a winter solstice event on our sundial. 

Also, you can observe the phases of Venus in the first three months of this year, just as Galileo did through his telescope.  Keep in mind that Galileo’s telescope looked like this; anyone with a good pair of binoculars has better observing equipment.  Go outside at dusk and look west southwest for the brightest point of light in the sky.  That is Venus.  Through a telescope, you’ll notice that Venus appears half-lit in mid-January 2009.  As you keep observing through March, you’ll see Venus become a more and more pronounced crescent.  This is because Venus is coming around to our side of the Sun and thus turning more and more of its night side to Earth.  The very skinny crescent of mid-March is so pronounced that it is noticeable in binoculars.

Remember, the great discoveries, or aha moments, as my co-blogger described, are not limited to great, historic scientists.  The beauty of science is that anyone who takes the time to observe can share in the act of discovery.