Space News Weekly

 FALCON 9 SECOND-STAGE ANOMALY: It is not often we see a Falcon 9 anomaly. This rocket is so well tested and has had so many successful launches that it may seem unbelievable that even the slightest anomaly could happen. However, that is exactly what has happened on the Starlink Group 1732 mission.  A Falcon 9 second stage failed to execute its planned de-orbit burn, after successfully deploying its Starlink payload on February 2nd. The vehicle completed ascent and nominal satellite insertion without issue, but the planned de-orbit burn did not occur, leaving the second stage in a 110 x 241 km orbit that decayed in under 12 hours.  SpaceX reported that the Merlin Vacuum engine failed to reignite in preparation for the de-orbit maneuver, resulting in an off-nominal condition. They passivated the stage by venting access propellants, pressurized fluids, and draining batteries to minimize the risk of any energetic event in orbit. This is the second such de-orbit failure in ap...

  ARTEMIS II EXPLAINED: Artemis II is NASA’s mission to the moon launching in early 2026. It will be the first time humans will visit the moon in over 50 years. It is, however, closer to a test flight—four astronauts will fly around the far side of the moon over a 10-day journey. The rocket they will fly on is nothing short of astonishing, the most powerful manned rocket to date—the SLS. THE SPACECRAFT: It is this rocket I want to dive a little bit deeper into, as it is a really interesting and super cool piece of machinery. The whole spacecraft the crew will be launching on is the SLS (Space Launch System) rocket and the Orion spacecraft. The SLS consists of two solid rocket boosters and one orange core stage in the middle. The next stage is called the interim cryogenic propulsion stage (ICPS), and above that is the uppermost stage—Orion. Orion is really the star of the show, as it is the newest and most technically advanced way we have to get to outer space. The SLS is mostly mad...

  EARTH AT PERIHELION: On Saturday, January 3, 2026, the center of the Earth will be at its closest distance to the center of the Sun during the entire calendar year. This distance is approximately 147 million km. Astronomers call this moment perihelion. Despite this, it is still winter in the Northern Hemisphere at this time. The reason is simple — Earth’s rotational axis is tilted, not perpendicular to the plane of its orbit. It is tilted by about 26,5 degrees. This means that during the Northern Hemisphere winter the hemisphere is tilted away from the sun, which means the sunlight hits the surface at a low angle, spreading the same amount of energy over a larger area. The Sun also stays above the horizon for a much shorter time, which prevents sufficient warming of the atmosphere. PEAK OF THE QUADRANTID METEOR SHOWER: One of the year’s most intense annual meteor showers, the Quadrantids, reached its peak activity during the past week. Its origin is from the debris left behind by...

 Europe’s path to space was very different from the better-known U.S. and NASA. Whilst the U.S. created a single national agency (NASA) in 1958 to be funded by the government into a single civil space program, Europe relied on cooperation. After the Second World War, many brilliant scientists fled to America, leaving even the biggest nations in Europe lacking. European nations, therefore, concluded that the only way to make a space program work is to pool resources across all nations and work together. This logic produced study groups and, by the early 1960s, two separate organizations: ESRO for spacecraft development and science, and ELDO for launcher development. Other organizations that are the technical footprint of ESRO and ELDO soon followed, with ESTEC for engineering, ESOC for operations, and ESRIN for Earth-observation data. This long-established infrastructure is still the backbone of ESA today. There was still, however, a big distinction between ESRO and ELDO; they were ...

  BLUE ORIGIN NEW GLENN UPDATES: After New Glenn’s second flight, Blue Origin has successfully recovered the first-stage booster. The damage that is shown is mostly cosmetic—paint loss and some thermal protection wear. This means that only minor upgrades are necessary to make the booster fully reusable. Reusability is Blue’s main focus for making their flights cheaper. They also plan to raise the combined liftoff thrust of the engines from around 17.2 MN to around 19.9 MN. This is being done by performance tuning and propellant subcooling (they make the LOX and CH₄ denser so the same tanks can carry more mass). This means that without any structural upgrades, New Glenn can carry more payload or increase its ΔV. In the short term, the upgrades to the first stage should reduce the time between launches and the cost per launch. They could be implemented and tested in the next few flights. Long term, if pursued to flight, 9x4 is essentially a new family member. It introduces a structur...

 What if we could get our electricity from space? Our world desperately needs clean energy. It is now not just a preference but a necessity. With rising demands for electricity consumption, any way to produce cleaner energy is appreciated. That’s where Solar-Based Solar Power (SBSP) comes into play. The core vision of SBSP is to capture solar energy in space where sunlight is uninterrupted, more intense, and unaffected by weather or night. Then, you take the harvested energy and transmit it wirelessly to Earth for use. On Earth, solar power is limited by a number of factors that were mentioned above. For example, solar irradiation on the ground rarely reaches the theoretical maximum (~1,386 W/m² above the atmosphere), and after all the atmospheric losses are accounted for, typical solar panels get on the order of a few hundred W/m². This output can also be much lower depending on the panels’ location. Many panels, for example, in Ireland average around 20-50 W/m² over time under re...

 For centuries, people believed Jupiter was composed entirely of gas. Observations through telescopes and later with cameras revealed a turbulent atmospheric storm. This led to the belief it was a single, immense sphere of condensed gas. However, we now know that is not the case. There are two theories on how Jupiter was created. The first, commonly taught in schools and called the “conventional” way, states that Jupiter formed as a large, solid core of rock and metal from collisions in the early solar system. As it became denser, it developed its own gravitational field and began attracting more material. Once massive enough, its gravity captured huge amounts of gas from the protoplanetary disc, eventually growing into what we see today. The key point is that this theory predicts a big, dense solid core at Jupiter’s center. There is another theory, which stands in contrast to the core-formation idea. According to this alternative, Jupiter formed more like a star: as a giant cloud ...

  We know a lot of elements and metals to make spacecraft out of. We also tried many options regarding so to make spaceflight as safe and inexpensive as possible. It is not often we find a material that completely revolutionises the way we see space exploration - one that could change everything. This material is not one but many, and they are called nanomaterials. Nanomaterials are materials with at least one dimension in the 1 to 100 nanometer range, which is extremely, extremely small. This size gives these materials unique properties different from their normal-sized counterparts. Launching anything into space is really expensive. That’s why shaving off even a single gram can save you thousands of dollars. Even the most efficient, reusable, and most used rocket, SpaceX’s Falcon 9, costs 2,720 USD to launch a single kilogram into orbit. If you make the object you are launching lighter, you save thousands, or you can fit more payload for the same price. That’s where nanomate...

Blue Origin's New Glenn rocket took to the skies again. On November 13th, 2025, it completed its second flight (NG-2), lofting NASA's twin ESCAPADE spacecraft toward Mars-transfer trajectories while recovering the booster upright on the company's sea platform, Jacklyn. This spacecraft carried both the scientific payload and a new Viasat communications demo; the flight achieved mission objectives and marked New Glenn's first successful booster recovery. WHAT HAPPENED AND WHEN: The launch was initially scheduled for November 9th  ;  however, it was moved due to unfavorable weather conditions by 4 days. At 20:55:01, the rocket took off. Its seven BE-4 engines ignited  ,  and it lifted off. The ascent was nominal, and stage separation occurred as planned; the upper stage performed burns to place ESCAPADE into the planned loiter orbit for later interplanetary injection. Both the Blue and Gold ESCAPADE spacecraft  ,  made by Rocket Lab, were deployed into their d...