The discussion revolves around the feasibility of high-speed space travel, particularly concerning the risks posed by space debris and the potential protective measures that could be employed. Participants explore theoretical and practical aspects of traveling at significant fractions of the speed of light, addressing both the dangers of interstellar dust and the challenges of shielding spacecraft and their occupants.
Participants do not reach a consensus on the feasibility of high-speed space travel or the effectiveness of proposed protective measures. Multiple competing views and uncertainties remain regarding the best approaches to mitigate risks from space debris.
Limitations include unresolved questions about the effectiveness of various shielding methods, the specific densities of debris in different regions of space, and the practical implementation of advanced technologies discussed.
Yes indeed, at near light velocities in the spacecraft 's frame of reference interstellar dust particles would become extremely high velocity projectiles and pose a constant thread to the spacecraft 's structure.bassplayer142 said:Wouldn't high speed travel in space be near impossible even if we could get to around the speed of light. Specs of space dust would most likely obliterate the spacecraft . A fleck of paint almost ruined one satalite and it was going about 22,000mph.
It doesn't have to be "rigid" strong. Water tanks do a pretty good job of absorbing incoming matter.bassplayer142 said:Is a shield that is strong enough even possible. I figure they would need a structure that is formed by manipulating individual atoms like those carbon nanotubes. Either that or some force field like in the movies.
bassplayer142 said:Wouldn't high speed travel in space be near impossible even if we could get to around the speed of light. Specs of space dust would most likely obliterate the spacecraft . A fleck of paint almost ruined one satalite and it was going about 22,000mph.
How do you keep the tank itself from failing and spilling all the water?DaveC426913 said:Water tanks do a pretty good job of absorbing incoming matter.
http://en.wikipedia.org/wiki/Self-sealing_fuel_tankGokul43201 said:How do you keep the tank itself from failing and spilling all the water?
bassplayer142 said:That sounds awesome. I wonder if that plasma is dangerous to the touch.
Contrapositive said:Plasma shields might protect against radiation. But what about slightly larger stuff? What about the sending probes to other star systems, which would have to travel at a significant portion of the speed of light and pass through the oort cloud. I'm unfamilar with the exact density of the oort cloud, but it's probably unlikely that a probe would get hit by a large asteroid. But it would seem like there would be good amount of mircoscopic junk floating around. Even something a hundredth the size of a pea would hit the craft with energy of a car crash.
That's how a Bussard ramjet works. Magnetic field as much as 100 miles in diameter.bassplayer142 said:Maybe they could use somekind of electrical field that would push particles out of the way. I would doubt this would work fast enough. Either that or the electrical field would have to be send out miles upon miles ahead. Also to say that these particles are actually charged.