Stars, the nearest rest being proxima centauri, 4 1\4 light- years away, a distance of 25 trillion miles ( 40 trillion KM). The vast distance and the hazards awaiting the astronomers heading this direction losses the hopes of many astronomers towards achieving this goal.
But all is not lost, combination of research, tests and sturdes may make such interstellar travel a reality. At a speed of 22 000 miles per second( 36 000 KM\S) scientists have discovered that it would take us 50 years to reach the star system. It would be powered by fission, the same process that makes the sun to give off heat. By doing this, those the inventions will help us deal with the main threats faced currently.
Those are:
1. The vast distance separating earth from the nearby star.
2.The energy production in the star system.
3. The dark holes and the dark univers.
BREAKDOWNS.
- What break through could bridge the gap for Interstaller travel, and how long might such mission take?:- I’m fascinated by Interstaller travel because it represents the ultimate challenge for human integrity. It forces us to rethink everything we know about physics, energy, and biology to solve the problem of cosmic distance. Sturdying this isn’t just finding faster robots, it’s about ensuring the long-term survival of our species and finally answering whether we are alone in the universe.
2. How can we harness stellar fission from nearby stars to power interstellar travel?:-I choose this area because the energy from atoms is our best chance to reach another star. Mastering this power would turn the massive gaps of space into a path we can actually travel. To me, it’s the most exciting way to use science to turn a scientific dream into a real- life journey.
3. How do extreme cosmic phenomena in dark universe challenge the safety of human-space mission?:-I choose this topic because it bridges the gap between the well- known biological dangers of space, such as Galactic Cosmic Ray’s (GCRs) that can damage DNA and cause cancer and the more mysterious, large-scale structure of the ” dark universe”. While dark materials are invisible and does not directly collide with space craft, it’s immersive gravitational influence shapes the very ” road” astronauts must travel by concentrating massive amounts of invisible mass in ” dark matter holes”
SOURCES.
- https://link.springer.com/chapter/10.1007/978-1-4757-3894-0_7.
2.https://WWW.sciencedirection.com/science/article/pili/0094576586901268.
3. https://arxiv.org/abs/1604.01356.
4. https://link.springer.com/book/10.1007/978-3-319-18869-0
5.https://link.springer.com/chapter/10.1007/978-1-4939-6652-3_2.
IMPACT TO THE INDIVIDUAL OR/AND SOCIETY.
Sturdying stars help our community by creating new technology we us every day. For example, the high tech- cameras built for telescope are now used in hospitals for scanners to help doctors find and treat illness. This research also make our GPS and map more accurate, helping us get around and ensure emergency services can find people quickly. Plus, by watching how stars works, science can protect our power grids and cell phone signals from being knocked out by space weather.
