29 September 2013
Last updated at 22:59
It is the first time a Falcon has flown out of the Vandenberg Air Force Base
The US SpaceX company has successfully launched a new version of its Falcon 9 rocket from California.
The vehicle, carrying the Canadian Cassiope research satellite, lifted clear of the Vandenberg Air Force Base at 09:00 local time (16:00 GMT).
The desired orbit was achieved nine minutes later.
SpaceX says the updated rocket, known as Falcon 9v1.1, incorporates a number of modifications to boost performance and simplify operations.
This first outing should now open the way for the new model to begin carrying satellites for the private sector.
In addition to the business it already has with Nasa to resupply the space station, SpaceX has a long backlog of commercial customers waiting for a Falcon to launch their spacecraft.
These include the big telecommunications companies which own the platforms that relay the world’s TV and phone traffic.
It is a launch market that has become dominated in recent years by the European Ariane 5 vehicle. SpaceX aims to take a large slice of its work, and is offering very competitive prices.
The 9v1.1 features more powerful Merlin engines and stretched tanks for additional propellant.
Sunday’s launch was also the first time the rocket had flown with its new payload fairing.
The nozzle on the second-stage engine glows brightly as it powers to orbit
This 13m-tall, 5m-wide clamshell covering is necessary to protect satellites from the aerodynamic forces encountered during an ascent.
Another first was SpaceX’s use of Vandenberg. Until now, all Falcon launches have gone out of Cape Canaveral Air Force Station in Florida.
The West Coast facility allows the Falcon to undertake a greater range of missions. In particular, it enables the rocket to fly south out over the ocean, away from land, to reach the polar orbits favoured by Earth observation satellites.
SpaceX CEO and chief designer, Elon Musk, expressed satisfaction with the day’s events: “It was a great day and we accomplished all of our primary mission objectives.
“We demonstrated a lot of new technologies successfully, including the Merlin 1D engine, the new stage-separation system, the much taller rocket which structurally performed very well, [and] the 17-ft diameter fairing, which separated successfully. Overall – really great.”
There is sure to be a lot of interest, also, in the outcome of an experiment that SpaceX ran on Sunday with the Falcon’s first stage.
Normally, this initial segment of a rocket falls back to Earth after burning out and is destroyed. But the company is endeavouring to develop a system that would allow it to recover and recycle these stages, further reducing the cost of launching a Falcon vehicle.
Ultimately, the idea is for Falcon first stages to have legs to permit them to make soft landings.
During Sunday’s mission, three first-stage engines were commanded to reignite, to see if they could bring the rocket segment down through the atmosphere intact. A fourth engine was then ignited to try to slow the stage still further just before it touched the water.
Mr Musk reported that the test went well, although the stage lost stability in the moments prior to impacting the water – a behaviour he says his engineering team understands and can correct.
“So it hit the water relatively hard,” he told reporters.
“We’ve recovered portions of the stage. But the most important thing is we now believe we have all the pieces of the puzzle.”
And Mr Musk said SpaceX would attempt to land a stage on legs, on land, early next year.
The MDA Corporation, which built the Cassiope satellite, reported that the small research platform was performing as expected after being ejected by the Falcon’s second stage. Cassiope, a project of the Canadian Space Agency, will study the Sun’s interaction with Earth’s upper atmosphere.
SES World Skies will be the first private sector customer to use the Falcon 9v1.1.
It has a telecommunication satellite called SES-8 that needs to be put 36,000km above the Asia Pacific region.
SpaceX has a programme called Grasshopper that is developing recoverable stage technology