If we achieve advanced nuclear, antimatter propulsion or other advance propulsion it would be possible to achieve near constant acceleration. This would enable travel times to Mars in the 3-8 day ...

Modern space exploration is driven as much by processors as it is by rockets. And it remains the ultimate test of our ...

UAE advances space engineering with Artemis-linked systems, global partnerships, and lunar missions driving reliability and exploration capability ...

Human crews headed for Mars are still looking at journeys that last most of a year, long enough for radiation, boredom and mechanical risk to pile up. Nuclear propulsion promises to compress that ...

Collaboration will combine Space Ocean’s expertise in fluid transfer and satellite logistics with Astrum Drive’s groundbreaking propulsion systems for space. This agreement represents a pivotal step ...

NASA plans to launch a nuclear-powered spacecraft to Mars by 2028, a major step for deep space exploration and its planned ...

Five U.S. companies will develop advanced space-propulsion technologies for NASA under contracts awarded by NASA’s Glenn Research Center that are worth as much as $50 million each. Intended to provide ...

ISPTech, a German space technology company developing propulsion systems for agile in-orbit maneuvering, announced it has ...

In 2002, NASA initiated a program to explore the use of nuclear power and propulsion systems for both human and robotic activities. By 2004, this activity, Project Prometheus, had acquired five tasks: ...

Building on Purdue’s rich legacy, the Space Systems Engineering Online Master’s Program will feature 10 courses totaling 30 credit hours covering major study areas such as orbital mechanics, advanced ...

Fundamentals of thermodynamics and aerodynamics -- Thermodynamic cycle analysis of gas turbines and air-breathing propulsion systems -- Aerodynamic design of axial flow compressors and turbines -- ...