Space Elevator: Japan Takes a Tiny First Step Towards Realizing a Celestial Castle

by Rosa May 6, 2019

written by Rosa May 6, 2019

Space Elevator: Japan Takes a Tiny First Step

Background

For over a century, scientists and science fiction writers have dreamt of a space elevator to transport astronauts and payloads between Earth and low orbit. The concept, first envisioned by Russian scientist Konstantin Tsiolkovsky in 1895, has remained elusive due to technological challenges.

Japan’s Experiment

Now, researchers at Japan’s Shizuoka University are taking a small step towards realizing this dream. Next week, they will launch two tiny cubic satellites into space aboard an H-2B rocket bound for the International Space Station. The satellites will be connected by a 33-foot steel cable, and a smaller motorized cube will function as an elevator car, moving along the cable between them. The researchers will monitor the system’s performance in orbit, marking the first-ever experiment to test elevator motion in space.

Challenges and Solutions

Building a functional space elevator poses significant challenges. The cable must be strong enough to withstand the stresses of gravity and wind in the upper atmosphere. Currently, no known material meets this requirement, including carbon nanotubes, the strongest material we have developed so far.

Another challenge is developing electromagnetic vehicles to ride the cable. These vehicles must be able to operate in zero gravity and navigate the cable’s length. Researchers are also exploring the use of a counterweight, such as a small asteroid, to keep the cable taut.

Obayashi Corporation’s Proposal

Despite these challenges, Japan remains committed to the space elevator concept. Obayashi Corporation, which built Japan’s largest tower, has proposed a concept for a space elevator that would use carbon nanotubes or a yet-undeveloped material. The proposal includes six oval-shaped elevator cars that would travel between a platform in the sea and a space station orbiting Earth. The journey would take an estimated eight days and require almost 60,000 miles of cable. The estimated cost of the project is around $90 billion.

Benefits and Potential

A space elevator would revolutionize space travel. It would provide a much cheaper and more efficient way to transport people and cargo into orbit, opening up new possibilities for space exploration and commercial ventures. The technology could also have applications in areas such as satellite maintenance and asteroid mining.

Future Prospects

While the technological challenges are significant, researchers remain optimistic about the future of space elevators. Yoji Inshikawa, leader of the Shizuoka University team, believes that “in theory, a space elevator is highly plausible.” He envisions a future where space travel becomes more commonplace, thanks to the advent of space elevators.

Additional Considerations

Beyond the technological hurdles, there are also practical considerations to address. For example, how would we print an “Out of Order” sign large enough to be visible from space? This humorous question highlights the need for creative solutions to the unique challenges posed by space elevators.

Rosa

Rosa is a distinguished software engineer whose passion for science and technology was kindled in her early childhood. Growing up in a household where academic curiosity was nurtured, Rosa was deeply influenced by her father, a dedicated physics professor. After long days at the university, her father would come home and engage Rosa in a world of scientific exploration, guiding her through various experiments and fostering a profound love for the intricacies of the physical world. From a young age, Rosa was captivated by the endless possibilities that science presented. She spent countless hours conducting experiments and learning the fundamental principles of physics. This early exposure to scientific inquiry not only honed her analytical skills but also instilled in her a relentless curiosity and a passion for problem-solving. Rosa's academic journey led her to pursue a degree in Computer Science, where she excelled in her studies, driven by the same enthusiasm that had characterized her childhood experiments. She graduated with honors, earning a Bachelor's degree from a prestigious university. Her academic achievements were marked by numerous accolades and scholarships, reflecting her dedication and exceptional talent in the field. In her professional career, Rosa has made significant contributions to the tech industry. She has worked for several leading technology companies, where she has been instrumental in developing innovative software solutions that have had a substantial impact on various sectors. Her expertise lies in designing and implementing complex algorithms, optimizing system performance, and ensuring the reliability and scalability of software applications. Beyond her technical prowess, Rosa is a strong advocate for women in STEM (Science, Technology, Engineering, and Mathematics). She actively participates in mentorship programs, guiding young women who aspire to pursue careers in technology. Rosa believes in the power of education and the importance of providing equal opportunities for all, and she dedicates her time to speaking at conferences and workshops to inspire the next generation of female engineers. In her personal life, Rosa continues to embrace her scientific roots. She enjoys spending her free time experimenting with new technologies, reading scientific journals, and engaging in discussions about the future of technology. Rosa's journey from a curious child conducting experiments to a successful software engineer is a testament to the power of early exposure to science and the enduring influence of a supportive and intellectually stimulating environment.