The planet Venus made a slow transit across the face of the sun this morning, the last such passing that will be visible from Earth for 105 years.

Transits of Venus happen in pairs, eight years apart, with more than a century between cycles. During today’s pass, Venus took the form of a small black dot slowly shifting across the northern hemisphere of the sun.

Armchair astronomers watched the six-hour and 40-minute transit on the internet, with dozens of websites offering live video from around the world.

Close-up views from the Prescott Observatory in Arizona also showed a small solar flaring in the making just beneath Venus' sphere.

Today's transit, completing a 2004-2012 pair, was visible from Ireland around sunrise, though cloud may have obscured the view in many places.

Skywatchers on seven continents, including Antarctica, were able to see all or part of the transit. Even astronauts aboard the International Space Station joined in the spectacle.

"I've been planning this for a while," space station flight engineer Don Pettit said in a NASA interview. "I knew the transit of Venus would occur during my rotation, so I brought a solar filter with me."

The transit is not all about pretty pictures. Several science experiments were planned, including studies that could help in the search for habitable planets beyond Earth.

Telescopes, such as NASA's Kepler space telescope, are being used to find so-called extrasolar planets that pass in front of their parent stars, much like Venus passing by the sun.

During the transit of Venus, astronomers planned to measure the planet's thick atmosphere in the hope of developing techniques to measure atmospheres around other planets.

Studies of the atmosphere of Venus could also shed light on why Earth and Venus, which are almost exactly the same size and orbit approximately the same distance from the sun, are so different.

Venus has a chokingly dense atmosphere that is 100 times thicker than Earth's and mostly carbon dioxide, a greenhouse gas.

Its surface temperature is a lead-melting 480C and towering clouds of sulphuric acid jet around the planet at 355km/h dousing it with acid rain.

Scientists are interested in learning more about Venus' climate in hopes of understanding changes in Earth's atmosphere.

During previous transits of Venus, scientists were able to figure out the size of the solar system and the distance between the sun and the planets.

Today's transit is only the eighth since the invention of the telescope, and the last until 10-11 December 2117. It also is the first to take place with a spacecraft at Venus.

Observations from Europe's Venus Express probe will be compared with those made by several ground and space-based telescopes, including NASA's Solar Dynamics Observatory, the joint US-European Solar and Heliospheric Observatory and Japan's Hinode spacecraft.