ロケットを飛ばすパチンコがペイロードを地表から 25,000 フィート上空に飛ばす様子をご覧ください

A HUGE slingshot has hurled its first Nasa payload on a test flight that could pave the way for a unique way to send satellites into orbit.

Spaceflight technology firm SpinLaunch’s groundbreaking Orbital Accelerator launches objects using a rotating carbon-fibre arm housed within a 300ft-wide steel vacuum chamber.

SpinLaunch's spacecraft-launching slingshot has completed its latest test

SpinLaunch’s spacecraft-launching slingshot has completed its latest testクレジット: YouTube/SpinLaunch
The enormous structure is taller than the statue of liberty

The enormous structure is taller than the statue of libertyクレジット: YouTube/SpinLaunch

It’s able to fling a launch vehicle containing a satellite at up to 5,000 miles per hour into the stratosphere.

The technique is touted as a cheap alternative to rocket launches, which cost tens of millions of dollars per flight.

The test, SpinLaunch’s 10th successful launch, was carried out from Spaceport America in New Mexico on September 27.

It’s part of a series of trials that will determine whether scientific payloads and satellites could survive the stress of the procedure.

The test included payloads from NASA, Airbus, Cornell University and satellite maker Output Space.

Jonathan Yaney, founder and CEO of SpinLaunch, 前記: “Flight Test 10 represents a key inflection point for SpinLaunch, as we’ve opened the Suborbital Accelerator system externally for our customers, strategic partners, and research groups,

The data and insights collected from flight tests will be invaluable for both SpinLaunch, as we further the development of the Orbital Launch system, and for our customers who are looking to us to provide them with low-cost, high-cadence, sustainable access to space.

The A-33 Suborbital Mass Accelerator system features a disc-shaped accelerator powered by a powerful electric drive.

It spins payloads at thousands of miles per hour before releasing them at the top of the structure through the launch tube.

そうすることによって, 以上 70 per cent of the fuel and structures that make up a typical rocket can be eliminated.

The company uses existing industrial hardware and commonly available materials to construct the innovative accelerator system.

It’s able to reach hypersonic launch speeds without the need for any major advancements in material science or technology.

After ascending above the stratosphere, a small, inexpensive propulsive stage provides the final required velocity for orbital insertion and positioning.

Through this unique approach, SpinLaunch is providing a fundamentally new way to access space.

The firm announced in April that they had signed a Space Act Agreement with Nasa.

The deal gives Nasa a spot on future flights to test its own payloads on the system.

Nasa says the agreement will provide it with data for potential future commercial launch opportunities.

SpinLaunch’s first flight propelled a test vehicle at supersonic speeds in October 2021.

それ以来, the suborbital system has conducted regular test flights with a variety of payloads at speeds in excess of 1,000 マイル/時.

The first orbital test launches are planned for 2025. The company hopes to begin launching satellites a year later.

“What started as an innovative idea to make space more accessible has materialised into a technically mature and game-changing approach to launch,” Yaney said earlier this year.

We look forward to announcing more partners and customers soon, and greatly appreciate NASA’s continued interest and support in SpinLaunch.”

A giant, rotating arm flings payloads into orbit

A giant, rotating arm flings payloads into orbitクレジット: YouTube/SpinLaunch
The system will hurl small satellites into space from 2026

The system will hurl small satellites into space from 2026クレジット: YouTube/SpinLaunch

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