Copernical Team
NASA, Boeing test crew return and recovery procedures
Landing and recovery teams from Boeing and NASA recently completed a crew landing dress rehearsal at the U.S. Army's White Sands Space Harbor in New Mexico, in preparation for missions returning with astronauts from the International Space Station as part of the agency's Commercial Crew Program. When astronauts land after their journey to the space station on Boeing's CST-100 Starliner spa
NASA, SpaceX to launch second Commercial Crew Rotation Mission to ISS
NASA and SpaceX are targeting no earlier than Tuesday, April 20, for launch of the second crew rotation mission with astronauts on an American rocket and spacecraft from the United States to the International Space Station. NASA's SpaceX Crew-2 mission will launch four astronauts aboard a Crew Dragon spacecraft on a Falcon 9 rocket to the space station. It will be the first mission to fly
Could game theory help discover intelligent alien life?
New research from the University of Manchester suggests using a strategy linked to cooperative game playing known as 'game theory' in order to maximize the potential of finding intelligent alien life.
If advanced alien civilisations exist in our galaxy and are trying to communicate with us, what's the best way to find them? This is the grand challenge for astronomers engaged in the Search for Extraterrestrial Intelligence (SETI). A new paper published in The Astronomical Journal by Jodrell Bank astrophysicist, Dr. Eamonn Kerins, proposes a new strategy based on game theory that could tip the odds of finding them more in our favor.
SETI programs tend to use one of two approaches. One is to conduct a survey that sweeps large areas of sky in the hope of seeing a signal from somewhere. This survey approach can quickly generate huge volumes of data that can be very hard to search through comprehensively. An alternative approach is targeted SETI, where the search focuses more intensively on specific star systems where life might exist. This provides more comprehensive data on those systems, but maybe there's nobody there?
SpaceX vs NASA: Who will get us to the moon first? Here's how their latest rockets compare
No one has visited the moon since 1972. But with the advent of commercial human spaceflight, the urge to return is resurgent and generating a new space race. NASA has selected the private company SpaceX to be part of its commercial spaceflight operations, but the firm is also pursuing its own space exploration agenda.
To enable flights to the moon and beyond, both NASA and SpaceX are developing new heavy lift rockets: SpaceX's Starship and NASA's Space Launch System.
But how do they differ and which one is more powerful?
Starship
Rockets go through multiple stages to get into orbit. By discarding spent fuel tanks while in flight, the rocket becomes lighter and therefore easier to accelerate. Once in operation, SpaceX's launch system will be comprised of two stages: the launch vehicle known as "BFR" (Big Falcon Rocket) and the Starship.
BFR is powered by the Raptor rocket engine, burning a combination of liquid methane and liquid oxygen.
Week in images: 25 - 29 January 2021
Week in images: 25 - 29 January 2021
Discover our week through the lens
NASA's MAVEN continues to advance Mars science and telecommunications relay efforts
With a suite of new national and international spacecraft primed to explore the Red Planet after their arrival next month, NASA's MAVEN mission is ready to provide support and continue its study of the Martian atmosphere.
MAVEN launched in November 2013 and entered the Martian atmosphere roughly a year later. Since that time, MAVEN has made fundamental contributions to understanding the history of the Martian atmosphere and climate. A few science highlights include:
- Determination that the bulk of the Martian atmosphere has been lost to space through time, driving changes in the Mars climate and the ability to support life at the surface.
- Characterization of the mechanisms by which gas is stripped away from the atmosphere to space and of the role of solar storms hitting Mars in enhancing the escape rate.
- There is significant unexpected variability in the loss rate of hydrogen to space through the seasons, which has important implications for the history of water.
ExoMars orbiter's 20,000th image
The CaSSIS camera onboard the ExoMars Trace Gas Orbiter has captured its 20,000th image of Mars.
The image, taken on 13 December 2020, features Solis Dorsum, a segment of a prominent wrinkle ridge system in a vast volcanic plateau, known as Tharsis. Wrinkle ridges are tectonic features that form in layered basalt lavas due to loading and flexure of the planet's crust and upper mantle. These tectonic stresses are caused by the planet's interior cooling and subsequent contraction.
The study of wrinkle ridges, and in particular their distribution and orientation, can reveal details of the complex and dynamic geological history of Mars.
The scale is indicated on the image. Download high-res PNG for the full image swath.
NASA, Rio De Janeiro Extend Disaster Preparedness Partnership
NASA and the city of Rio de Janeiro have extended an agreement to support innovative and collaborative efforts to better understand, anticipate, monitor and respond to natural hazards and other impacts affecting the city. The collaboration leverages the unique attributes of NASA's satellite data and modeling frameworks and Rio de Janeiro's management and monitoring capabilities to improve awaren
MDA appoints new VP of Satellite Systems
MDA is pleased to welcome Amer Khouri as the company's new Vice President of Satellite Systems. As the leader for this business, Mr. Khouri will be responsible for all business area activities including successful execution of existing programs and the continued growth of MDA's Satellite Systems business, which is based in Montreal, Canada. Mr. Khouri has an extensive 25-year career in gen
Compelling evidence of neutrino process opens physics possibilities
The COHERENT particle physics experiment at the Department of Energy's Oak Ridge National Laboratory has firmly established the existence of a new kind of neutrino interaction. Because neutrinos are electrically neutral and interact only weakly with matter, the quest to observe this interaction drove advances in detector technology and has added new information to theories aiming to explain myst