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SpaceX Conducts Static Fire Test of Starship Upper Stage Ahead of Ninth Flight

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SpaceX has once again demonstrated progress with its next-generation Starship spacecraft by conducting a full-duration static fire test of the vehicle’s upper stage on May 12th at its Starbase facility in South Texas. During this important milestone, the 171-foot-tall upper stage fired all six Raptor engines for approximately 60 seconds, confirming the ship’s readiness as it undergoes final preparations. This test marks the third static fire for this particular Starship, highlighting SpaceX’s methodical approach to refining the vehicle before its highly anticipated ninth test flight. The company shared video and images from the test on social media, giving enthusiasts a closer look at the spacecraft’s development.

This static fire represents one of the last critical steps before the vehicle’s next launch, though SpaceX has yet to announce an official date. The booster designated for Flight 9 has also completed its own static fire test, fueling speculation that the launch could be imminent, possibly within weeks. Once fully assembled, the Starship system towers at 403.5 feet, making it the most powerful rocket ever built. Its design emphasizes full reusability for both the Super Heavy booster and the Starship upper stage—an essential feature for future missions to the Moon, Mars, and beyond.

To date, Starship has flown eight test missions, including two in 2025. While the launches themselves proceeded smoothly, the upper stage encountered failures shortly after reaching space during both 2025 flights. Notably, the Super Heavy booster executed impressive and precise landings back at Starbase, aided by the giant launch tower’s “chopstick” arms—a first-of-its-kind rocket-catching method. However, the upper stage exploded less than ten minutes post-launch on both occasions, raising questions about its stability and resilience.

Despite these setbacks, SpaceX continues to refine Starship, pushing closer to achieving a fully reusable spacecraft capable of supporting ambitious space exploration goals. With multiple static fire tests completed and ongoing improvements, the ninth launch is expected to come soon, provided the company maintains its rapid pace of testing and development at Starbase. Enthusiasts and space watchers alike remain eager to see how Starship progresses on its path toward becoming a cornerstone for humanity’s interplanetary future.

Blue Origin’s New Glenn Rocket Scheduled for Maiden Launch in January

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Blue Origin is preparing for the first-ever launch of its heavy-lift New Glenn rocket, marking a major milestone for the company in the competitive space exploration sector. The Federal Aviation Administration (FAA) has confirmed that the launch window will open on Monday, January 6, from Cape Canaveral Space Force Station in Florida. The rocket’s lift-off is expected to occur between 1 a.m. and 4:45 a.m. EST, with additional opportunities available every day through January 12. This launch represents the beginning of Blue Origin’s ambition to establish a strong foothold in the space industry, directly competing with established players like SpaceX.

The inaugural mission will not carry a commercial payload. Instead, it will feature the Blue Ring Pathfinder, a simulator designed to test the New Glenn rocket’s payload systems. This mission is focused on verifying key technologies and capabilities, such as the rocket’s ability to deliver payloads to orbit, as well as the innovative technology that allows the rocket’s first stage to land on a sea platform after launch. Reusable technology is one of Blue Origin’s core goals, with the New Glenn rocket booster designed for up to 25 flights, a feature that positions it as a direct competitor to SpaceX’s Falcon and Starship rockets, which also focus on reusability.

One of the standout features of the New Glenn rocket is its 23-foot payload fairing, which is larger than that of many of its competitors. This capability allows the rocket to accommodate a wider range of payloads, giving it flexibility in handling various mission profiles. The first test flight will serve as a critical opportunity to evaluate crucial systems such as communications, tracking, and telemetry, all of which are vital for the success of future missions. These assessments are important steps toward refining the rocket’s design and preparing for commercial launches.

The New Glenn rocket’s development is part of Blue Origin’s long-term strategy to revolutionize spaceflight and make space more accessible. By focusing on reusability and flexibility, the company aims to bring down the costs of space missions and expand its commercial and scientific payload delivery capabilities. As the rocket enters its first phase of testing, Blue Origin is setting the stage for more ambitious projects, with the goal of further establishing itself as a leading player in the space industry.