WATCH: Emily Lakdawalla, with the Planetary Society, explains how scientists will soon be getting a new look of Pluto.
CAPE CANAVERAL, Fla. – Little Pluto is a little bigger than anyone imagined.
On the eve of NASA’s historic flyby of Pluto, scientists announced Monday that the New Horizons spacecraft has nailed the size of the faraway icy world.
Measurements by the spacecraft set to sweep past Pluto on Tuesday indicate the diameter of the dwarf planet is 2,370 kilometres, plus or minus 19 kilometres. That’s about 80 kilometres bigger than previous estimates in the low range.
Principal scientist Alan Stern said this means Pluto has a lower density than thought, which could mean an icier and less rocky interior.
New Horizons’ 4.8 billion-kilometre, 9 1/2-year journey from Cape Canaveral, Florida, culminates Tuesday morning when the spacecraft zooms within 12,500 kilometres of Pluto at 49,900 kph.
Mission managers said there’s only one chance in 10,000 that something could go wrong, like a debilitating debris strike, this late in the game. But Stern cautioned: “We’re flying into the unknown. This is the risk we take with all kinds of exploration.”
READ MORE: Why Pluto matters
“It sounds like science fiction, but it’s not,” Stern said as he opened a news conference at mission headquarters in Maryland. “Tomorrow morning a United States spacecraft will fly by the Pluto system and make history.”
Discovered in 1930, Pluto is the last planet in our solar system to be explored. It was a full-fledged planet when New Horizons rocketed away in 2006, only to become demoted to dwarf-planet status later that year.
WATCH: What we’ve learned so far from the New Horizons mission to Pluto
New Horizons has already beamed back the best-ever images of Pluto and its big moon Charon on the far fringes of the solar system.
“The Pluto system is enchanting in its strangeness, its alien beauty,” said Stern, a planetary scientist at Southwest Research Institute in Boulder, Colorado.
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With the encounter finally at hand, it all seems surreal for the New Horizons team gathered at Johns Hopkins University’s Applied Physics Laboratory. The energy there was described as electric.
Project manager Glen Fountain said New Horizons, at long last, is like a freight train barrelling down the track, “and you’re seeing this light coming at you and you know it’s not going to stop, you can’t slow it down.”
“Of course, the light is Pluto, and we’re all excited,” Fountain said.
READ MORE: What to expect when New Horizons arrives
Three new discoveries were revealed Monday, a tantalizing sneak preview as the countdown to closest approach reached the 21-hour mark.
Besides the revised size of Pluto — still a solar system runt, not even one-fifth the size of Earth — scientists have confirmed that Pluto’s north pole is indeed icy as had been suspected. It’s packed with methane and nitrogen ice.
And traces of Pluto’s nitrogen-rich atmosphere have been found farther from the dwarf planet than anticipated. New Horizons detected lost nitrogen nearly a week ago.
As for pictures, the resolution is going to increase dramatically. Until New Horizons, the best pictures of Pluto had come from the Hubble Space Telescope. Hubble did its best from Earth orbit, but managed to produce only crude pixelated blobs of the minuscule world.
WATCH: The purpose of NASA’s mission to Pluto
The New Horizons spacecraft is the size of a baby grand piano with a salad bowl — the dish antenna — on top. It will come closest to Pluto at 7:49 a.m. EDT (1149 GMT) Tuesday. Thirteen hours later, around 9 p.m. EDT (0100 GMT), flight controllers will learn if everything went well. The spacecraft will have sent the confirmation signal 4 1/2 hours earlier; that’s the one-way, speed-of-light, data-transit time between New Horizons and Earth.
Stern expects “a little bit of drama” during closest approach, when the spacecraft is out of touch with ground controllers. New Horizons cannot make observations and send back data at the same time, so scientists opted for maximum science during those most critical hours.
Pluto is the largest object in the so-called Kuiper Belt, considered the third zone of the solar system after the inner rocky planets and outer gaseous ones. This unknown territory is a shooting gallery of comets and other small bodies; every time one of these wayward objects smack one of Pluto’s five known moons, the ejected material ends up in orbit around Pluto, thus the debris concern. An extension of the $720 million mission, not yet approved, could have New Horizons flying past another much smaller Kuiper Belt object, before departing the solar system.
Follow GlobalNews.ca for live coverage of the event and behind-the-scenes images and updates on Tuesday, July 14 from Johns Hopkins University’s Applied Physics Laboratory in Maryland.
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