Astrobiology Top 10: The Transit of Venus
Venus, a Planetary Portrait of Inner Beauty
This story was originally published on June 6, 2012.
The June 8, 2004, transit of Venus photographed by Frans Snik at the Dutch Open Telescope in La Palma, Canary Islands. Credit: Frans Snik, Dutch Open Telescope, La Palma, Canary Islands
A Venus transit across the face of the Sun is a relatively rare event — occurring in pairs with more than a century separating each pair. There have been all of 53 transits of Venus across the Sun between 2000 B.C. and the last one in 2004. On Wednesday, June 6 (Tuesday, June 5 from the Western Hemisphere), Earth gets another shot at it — and the last for a good long while. But beyond this uniquely celestial oddity, why has Venus been an object worthy of ogling for hundreds of centuries?
“Venus is a fascinating yet horrendously extreme place all at once,” said Sue Smrekar, a scientist at NASA’s Jet Propulsion Laboratory in Pasadena, Calif. “Although the surface is hot enough to melt lead due to its runaway greenhouse atmosphere, in many respects it is Earth’s twin [size, gravity and bulk composition].”
Venus is not only nearby, but its orbit brings it closest to Earth of all the planets. Which along with its bright atmosphere goes a long way toward making it the third brightest object in the sky (the Sun and moon are one and two). Along with Smrekar and many other equally intrigued planetary scientists, you can add to the list of those studying the second planet from the Sun the ancient Babylonians, who noted its wanderings in texts as far back as 1600 BC. And anyone who has ever sweated out a Pythagorean Theorem in school (a^2 + b^2 = c^2) might find some solace in knowing that Greek mathematician Pythagoras sweated out the orbits of Venus, eventually becoming the first to determine that what had been believed to be unique and separate evening and morning stars (as believed by the ancient Egyptians and Greeks), was actually just one object — Venus.
But for all that these ancient astronomers and their medieval contemporaries (including the Aztecs back in the 1500s) were able to deduce, no human had ever laid eyes on Venus as more than a bright dot in the sky until Galileo Galilee, who in 1610 was the first human to actually see Venus in various kinds of light. With his telescope, Galileo started cranking out Venetian discoveries, including how the planet changed its illumination phase just like the Moon as it circles Earth. Galileo’s telescope provided strong evidence that Venus goes around the Sun, and not Earth, as most of his contemporaries believed.
Artist concept of lightning on Venus. Credit: ESA
After Galileo, Venus came under even more intense scrutiny, both scientific and fanciful. More than one astronomer (and science fiction author) theorized it was home to some type of life form. The thick, impenetrable clouds allowed them to imagine tropical environs with steady rainfall and lush vegetation.
With the dawn of robotic space probes, America’s Mariner 2, built by JPL, became history’s first interplanetary traveler when it flew past Venus on Dec. 14, 1962. All told, 45 missions targeting Earth’s twin have been launched by the United States, Russia (and former Soviet Union), and Japan. All this probing by astronomers and robotic explorers has found Venus to be replete with 900-degree- Fahrenheit (500-degree-Celsius) temperatures in a carbon-dioxide-rich atmosphere with pressures equivalent to being half a mile below the ocean surface. It is not a particularly hospitable environment.
“If our research tells us anything, it is that while Venus is devoid of life, it should be anything but avoided,” said Smrekar. “Throughout history, Venus has been one of the most studied and speculated- about celestial bodies in our sky, and the same truth will hold well after this transit is over. Venus is a remarkable world with many lessons for us about the climate and interior of Earth and Earth-like planets in other solar systems.”
For those who want to know more, check out NASA’s web page for all things Venus transit: http://venustransit.nasa.gov/transitofvenus/
If you’re in the western Pacific, eastern Asia and eastern Australia, you’ll get a great view of the entire event. North and Central America, and northern South America get the beginning of the transit (on June 5), but the Sun will set before the event ends. Conversely, Europeans, as well as those watching in western and central Asia, eastern Africa and western Australia will get a glimpse at the tail end.