Astronomers have an excellent habit of naming large projects after deserving contributors to their field.  From Nancy Grace Roman to Edwin Hubble, some of the biggest missions are named after space exploration pioneers. When ESA and JAXA sat down to figure out a name for their new Mercury probe, they would have come across an important name early in their research – Giuseppe “Bepi” Colombo – the man who helped plan the Mariner 10 Mercury mission.

Giuseppe Colombo was an Italian rocket scientist born in 1920 in Padua.  He studied Mathematics at the University of Pisa and eventually became a Professor of Applied Mechanics at the University of Padua after returning home.

Artist's impression of the European Space Agency's BepiColombo mission, named after Giuseppe
Artist’s impression of the European Space Agency’s BepiColombo mission, named after Giuseppe “Bepi” Colombo, in operation around Mercury.
Credit: Astrium

His first major contribution to space exploration was when he noted at a conference on Mariner 10 in 1955 that the spacecraft could make a second and even third pass by Mercury if the orbital mechanics were timed right.  It would require a gravity assist from Venus, but given the probe’s orbital period was roughly twice the planet’s rotational period, it was possible to do so.

After a NASA study confirmed his mechanics, Mariner did, in fact, complete three flybys of Mercury, and one of Venus, with the closest coming in at a mere 327 km from the innermost planet.  This was the first time a spacecraft used an interplanetary gravitational slingshot, a maneuver still commonly used by space probes today, including Colombo’s namesake. It also marked the most data ever gathered up close of Mercury – in fact, “almost everything known until now about the planet Mercury comes from Mariner 10’s orbits during 1974-75, which were inspired by Colombo’s calculations,” according to an ESA biography.

Mercury, the focus of Mariner 10's mission that Colombo helped plan, seen from the spacecraft
Mercury, the focus of Mariner 10’s mission that Colombo helped plan, seen from the spacecraft.
Credit – NASA

Calculations of Mercury’s orbital mechanics weren’t the only contribution Colombo made, though.  He actively studied Saturn’s rings (eventually having a gap in them named after him) and developed a satellite tethering method that was eventually launched by the Space Shuttle as the Tethered Satellite System in 1992 and 1996.  He also helped develop ESA’s mission to Halley’s Comet, known as Giotto. 

Not content to deal with only theoretical matters, Colombo held numerous patents, including a preliminary one for a gravity gradiometer and a preliminary “skyhook.”  On his literal deathbed, he was even thinking about ways that skyhooks could potentially generate electric power by moving through the Earth’s magnetosphere.

Orbital path of Giotto mission that visited Halley's comet that Colombo helped contribute to.https://www.mansbrand.com/ingenuity-sees-perseverance-from-above/

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