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Jukiodone
reply to post by bobs_uruncle
Seems a sensible conclusion.
Meanwhile you arrive at your destination at 99.9% of C and ...it takes you so long to accelerate (de-celerate sic) to a speed where you can exit the craft safely, you overshoot it by 10 AU's.
i'm not going to be a smart azz. that was my first impulse because it look like a deliberate redcutio ad absurdem. but you do realise that any civilization that can figure out interstellar travel can also calculate "windage" and lead the target right? and can figure out when to start braking so as not to overshoot. we have computers and software for that sort of thing. heck we can even calculate it with pen and paper with a slide rule too. plus we are not likely to strike out towards the ends of the galaxy before we explore the local neighborhood where its pretty simple. line your boresight cross hairs on proxima and instruct the computer to keep the target cursor on the object there. it will move some by the time you get there but that is what final course corrections are for. but you wouldn't waste that much more fuel just following the pretty red orange ball in the target recticle.
bobs_uruncle
Jukiodone
reply to post by bobs_uruncle
Seems a sensible conclusion.
Meanwhile you arrive at your destination at 99.9% of C and ...it takes you so long to accelerate (de-celerate sic) to a speed where you can exit the craft safely, you overshoot it by 10 AU's.
Or more (since the galaxy would have rotated as well) plus 1 to 40 million years dependent on the distance traveled LOL
Cheers - Dave
stormbringer1701
actually if felber and hilbert are correct you impart up too twice your energy (the caveat here is: you cannot get it to go above C) via the hilbert effect. also it takes a tiny amount of energy to nudge something out of the way assuming you can impart it far enough away for the vector to clear your front. according to research just painting a earth impacting asteroid white on one side is enough to deflect a full on asteroid millions of miles away from intercept point. so photon pressure differences are enough. Another caveat to the hilbert felber effect though; is your mass is a lot less than a star or a planets so likely your own velocity would suffer appreciably if Hilbert's effect was used.
bobs_uruncle
Laykilla
bobs_uruncle
reply to post by stormbringer1701
There would be no additional tidal forces that I am aware of since all parts of the device would be traveling at basically the same speed. The bigger problem is micro meteors, even motionless dust become projectiles at high speeds.
Cheers - Dave
This is why "forcefields" are actively being researched. We can see low level concepts in applied sciences today with anti-missile systems on tanks.
If you had a perimeter field that pushed micro dust away or deflected micro meteors before they could ever even touch the hull, this becomes a non-issue.
Space flight is complicated, but nothing has ever been proven too complicated to be done. It's just such a massive puzzle that it'll take a long time to get there [or maybe we've been there already, just not publicly.]edit on 15-3-2014 by Laykilla because: (no reason given)
Now, let's say you are traveling at 99.99% C. You have to move everything else out of the way at 99.999% C or higher. Imagine the energy requirements to move one hundred 500gram objects, which wouldn't even be close to what would be actually encountered, in a linear 12 light year journey to say Barnard's Star. Depending on your final speed close to C, the energy required to move objects out of the way could easily exceed the total energy of the universe.
Cheers - Dave
stormbringer1701
actually if felber and hilbert are correct you impart up too twice your energy (the caveat here is: you cannot get it to go above C) via the hilbert effect. also it takes a tiny amount of energy to nudge something out of the way assuming you can impart it far enough away for the vector to clear your front. according to research just painting a earth impacting asteroid white on one side is enough to deflect a full on asteroid millions of miles away from intercept point. so photon pressure differences are enough. Another caveat to the hilbert felber effect though; is your mass is a lot less than a star or a planets so likely your own velocity would suffer appreciably if Hilbert's effect was used.
bobs_uruncle
Laykilla
bobs_uruncle
reply to post by stormbringer1701
There would be no additional tidal forces that I am aware of since all parts of the device would be traveling at basically the same speed. The bigger problem is micro meteors, even motionless dust become projectiles at high speeds.
Cheers - Dave
This is why "forcefields" are actively being researched. We can see low level concepts in applied sciences today with anti-missile systems on tanks.
If you had a perimeter field that pushed micro dust away or deflected micro meteors before they could ever even touch the hull, this becomes a non-issue.
Space flight is complicated, but nothing has ever been proven too complicated to be done. It's just such a massive puzzle that it'll take a long time to get there [or maybe we've been there already, just not publicly.]edit on 15-3-2014 by Laykilla because: (no reason given)
Now, let's say you are traveling at 99.99% C. You have to move everything else out of the way at 99.999% C or higher. Imagine the energy requirements to move one hundred 500gram objects, which wouldn't even be close to what would be actually encountered, in a linear 12 light year journey to say Barnard's Star. Depending on your final speed close to C, the energy required to move objects out of the way could easily exceed the total energy of the universe.
Cheers - Dave
stormbringer1701
i'm not going to be a smart azz. that was my first impulse because it look like a deliberate redcutio ad absurdem. but you do realise that any civilization that can figure out interstellar travel can also calculate "windage" and lead the target right? and can figure out when to start braking so as not to overshoot. we have computers and software for that sort of thing. heck we can even calculate it with pen and paper with a slide rule too. plus we are not likely to strike out towards the ends of the galaxy before we explore the local neighborhood where its pretty simple. line your boresight cross hairs on proxima and instruct the computer to keep the target cursor on the object there. it will move some by the time you get there but that is what final course corrections are for. but you wouldn't waste that much more fuel just following the pretty red orange ball in the target recticle.
bobs_uruncle
Jukiodone
reply to post by bobs_uruncle
Seems a sensible conclusion.
Meanwhile you arrive at your destination at 99.9% of C and ...it takes you so long to accelerate (de-celerate sic) to a speed where you can exit the craft safely, you overshoot it by 10 AU's.
Or more (since the galaxy would have rotated as well) plus 1 to 40 million years dependent on the distance traveled LOL
Cheers - Dave
you add a little difficulty when the light from the target is blue shifted out of the visible spectrum because of your velocity. but even at 99 c there is gamma ray light that you can use for a visual image with digital processing of the signal data from a gamma telescope. or x ray. or microwave or THZ depending on the degree of blue shift. the other thing is you would want an algorythm to adjust your acceleration and deaccerlation time for time dilation. as you know there are formulas that are sued to determine time dilation effects. a computer can completely model the positions velocities and so forth for every known stellar object and planet in a good fraction of the galaxy without breaking a sweat.
Add to that XNAV positioning system position fixes and you are good to go. there is currently an XNAV prototype on the ISS. XNAV is a set of X-Ray telescopes that track puslsars like a GPS receiver tracks satellites. it works the same way. it is accurate to within a few kilometers of your position even across the galaxy.edit on 17-3-2014 by stormbringer1701 because: (no reason given)
the gradient is spherical with the highest point of the gravity well on the center line. in other words stuff falls from the center line following the curved space. stuff that managed to get through would only be traveling at warp during passage into the interior where velocity of the ship is zero. upon entering the interior space it's warp velocity boost simply goes away. warp acceleration does not carry over in real space. so the only velocity that counts is the particles velocity from before impinging on the warp region shell.
bobs_uruncle
stormbringer1701
actually if felber and hilbert are correct you impart up too twice your energy (the caveat here is: you cannot get it to go above C) via the hilbert effect. also it takes a tiny amount of energy to nudge something out of the way assuming you can impart it far enough away for the vector to clear your front. according to research just painting a earth impacting asteroid white on one side is enough to deflect a full on asteroid millions of miles away from intercept point. so photon pressure differences are enough. Another caveat to the hilbert felber effect though; is your mass is a lot less than a star or a planets so likely your own velocity would suffer appreciably if Hilbert's effect was used.
bobs_uruncle
Laykilla
bobs_uruncle
reply to post by stormbringer1701
There would be no additional tidal forces that I am aware of since all parts of the device would be traveling at basically the same speed. The bigger problem is micro meteors, even motionless dust become projectiles at high speeds.
Cheers - Dave
This is why "forcefields" are actively being researched. We can see low level concepts in applied sciences today with anti-missile systems on tanks.
If you had a perimeter field that pushed micro dust away or deflected micro meteors before they could ever even touch the hull, this becomes a non-issue.
Space flight is complicated, but nothing has ever been proven too complicated to be done. It's just such a massive puzzle that it'll take a long time to get there [or maybe we've been there already, just not publicly.]edit on 15-3-2014 by Laykilla because: (no reason given)
Now, let's say you are traveling at 99.99% C. You have to move everything else out of the way at 99.999% C or higher. Imagine the energy requirements to move one hundred 500gram objects, which wouldn't even be close to what would be actually encountered, in a linear 12 light year journey to say Barnard's Star. Depending on your final speed close to C, the energy required to move objects out of the way could easily exceed the total energy of the universe.
Cheers - Dave
Personally I don't think the Hilbert effect will work as postulated by Frank Felber and therefore particles and objects will not be repelled by a ship traveling at close to C, the particles and objects will simply not have enough time to get out of the way without a massive injection of energy. If we look at at other propulsion methods such as "warp" type drives that create gravity wells in front of and gravity expansions behind a ship, we get a similar problem in that local objects will be drawn in towards the gravity well created in front of the ship. Similarly, if a spatial "vacuum" is created in front of a ship, the same problem arises, matter is drawn into the controlled area.
I have the same problem with inertial propulsion, you can achieve very close to C at a g or more acceleration over time, but there is still that nagging problem of particles and objects impinging your ship at the speed you are traveling. One thing I have considered is that an object of mass traveling at close to C might create an enormous electrostatic field, which could possibly repel particles and objects, but I have not been able to test this experimentally yet.
Cheers - Dave
bobs_uruncle
stormbringer1701
i'm not going to be a smart azz. that was my first impulse because it look like a deliberate redcutio ad absurdem. but you do realise that any civilization that can figure out interstellar travel can also calculate "windage" and lead the target right? and can figure out when to start braking so as not to overshoot. we have computers and software for that sort of thing. heck we can even calculate it with pen and paper with a slide rule too. plus we are not likely to strike out towards the ends of the galaxy before we explore the local neighborhood where its pretty simple. line your boresight cross hairs on proxima and instruct the computer to keep the target cursor on the object there. it will move some by the time you get there but that is what final course corrections are for. but you wouldn't waste that much more fuel just following the pretty red orange ball in the target recticle.
bobs_uruncle
Jukiodone
reply to post by bobs_uruncle
Seems a sensible conclusion.
Meanwhile you arrive at your destination at 99.9% of C and ...it takes you so long to accelerate (de-celerate sic) to a speed where you can exit the craft safely, you overshoot it by 10 AU's.
Or more (since the galaxy would have rotated as well) plus 1 to 40 million years dependent on the distance traveled LOL
Cheers - Dave
you add a little difficulty when the light from the target is blue shifted out of the visible spectrum because of your velocity. but even at 99 c there is gamma ray light that you can use for a visual image with digital processing of the signal data from a gamma telescope. or x ray. or microwave or THZ depending on the degree of blue shift. the other thing is you would want an algorythm to adjust your acceleration and deaccerlation time for time dilation. as you know there are formulas that are sued to determine time dilation effects. a computer can completely model the positions velocities and so forth for every known stellar object and planet in a good fraction of the galaxy without breaking a sweat.
Add to that XNAV positioning system position fixes and you are good to go. there is currently an XNAV prototype on the ISS. XNAV is a set of X-Ray telescopes that track puslsars like a GPS receiver tracks satellites. it works the same way. it is accurate to within a few kilometers of your position even across the galaxy.edit on 17-3-2014 by stormbringer1701 because: (no reason given)
I realize that and I was being a bit facetious, at the time I wrote that I was also thinking about the technological singularity and the concurrent dumbing down of society that is presently ongoing. What if you had fantastic technology and a bunch of button pushers like in the movie "Idiocracy?" LOL
Cheers - Dave.
stormbringer1701
bobs_uruncle
stormbringer1701
i'm not going to be a smart azz. that was my first impulse because it look like a deliberate redcutio ad absurdem. but you do realise that any civilization that can figure out interstellar travel can also calculate "windage" and lead the target right? and can figure out when to start braking so as not to overshoot. we have computers and software for that sort of thing. heck we can even calculate it with pen and paper with a slide rule too. plus we are not likely to strike out towards the ends of the galaxy before we explore the local neighborhood where its pretty simple. line your boresight cross hairs on proxima and instruct the computer to keep the target cursor on the object there. it will move some by the time you get there but that is what final course corrections are for. but you wouldn't waste that much more fuel just following the pretty red orange ball in the target recticle.
bobs_uruncle
Jukiodone
reply to post by bobs_uruncle
Seems a sensible conclusion.
Meanwhile you arrive at your destination at 99.9% of C and ...it takes you so long to accelerate (de-celerate sic) to a speed where you can exit the craft safely, you overshoot it by 10 AU's.
Or more (since the galaxy would have rotated as well) plus 1 to 40 million years dependent on the distance traveled LOL
Cheers - Dave
you add a little difficulty when the light from the target is blue shifted out of the visible spectrum because of your velocity. but even at 99 c there is gamma ray light that you can use for a visual image with digital processing of the signal data from a gamma telescope. or x ray. or microwave or THZ depending on the degree of blue shift. the other thing is you would want an algorythm to adjust your acceleration and deaccerlation time for time dilation. as you know there are formulas that are sued to determine time dilation effects. a computer can completely model the positions velocities and so forth for every known stellar object and planet in a good fraction of the galaxy without breaking a sweat.
Add to that XNAV positioning system position fixes and you are good to go. there is currently an XNAV prototype on the ISS. XNAV is a set of X-Ray telescopes that track puslsars like a GPS receiver tracks satellites. it works the same way. it is accurate to within a few kilometers of your position even across the galaxy.edit on 17-3-2014 by stormbringer1701 because: (no reason given)
I realize that and I was being a bit facetious, at the time I wrote that I was also thinking about the technological singularity and the concurrent dumbing down of society that is presently ongoing. What if you had fantastic technology and a bunch of button pushers like in the movie "Idiocracy?" LOL
Cheers - Dave.
we already do have an idiocracy. but there are always some individuals who are not idiots who can still function at the heights of human intellect. they just get rarer in an idiocracy. i mean look at the schmucks we elect and re-elect and the B.S. voters fall for. "i can give you very thing you want for free. there are no consequences or price to pay. vote for me. I'll pay your gas and mortgage and give you a phone and healthcare all for free!" and when it costs more and screws up employment and the economy and makes us a world wide joke they are too dumb to realize where the fault lays and correct it.
on XNAV: spectrum.ieee.org...
i did read an article that said XNAV had been lofted to the ISS and testing was underway. but have not fount the article again (so far...)
weirdly XNAV was the (tertiary) back up navigation system for federation vessels in Star trek.edit on 17-3-2014 by stormbringer1701 because: (no reason given)
stormbringer1701
bobs_uruncle
stormbringer1701
actually if felber and hilbert are correct you impart up too twice your energy (the caveat here is: you cannot get it to go above C) via the hilbert effect. also it takes a tiny amount of energy to nudge something out of the way assuming you can impart it far enough away for the vector to clear your front. according to research just painting a earth impacting asteroid white on one side is enough to deflect a full on asteroid millions of miles away from intercept point. so photon pressure differences are enough. Another caveat to the hilbert felber effect though; is your mass is a lot less than a star or a planets so likely your own velocity would suffer appreciably if Hilbert's effect was used.
bobs_uruncle
Laykilla
bobs_uruncle
reply to post by stormbringer1701
There would be no additional tidal forces that I am aware of since all parts of the device would be traveling at basically the same speed. The bigger problem is micro meteors, even motionless dust become projectiles at high speeds.
Cheers - Dave
This is why "forcefields" are actively being researched. We can see low level concepts in applied sciences today with anti-missile systems on tanks.
If you had a perimeter field that pushed micro dust away or deflected micro meteors before they could ever even touch the hull, this becomes a non-issue.
Space flight is complicated, but nothing has ever been proven too complicated to be done. It's just such a massive puzzle that it'll take a long time to get there [or maybe we've been there already, just not publicly.]edit on 15-3-2014 by Laykilla because: (no reason given)
Now, let's say you are traveling at 99.99% C. You have to move everything else out of the way at 99.999% C or higher. Imagine the energy requirements to move one hundred 500gram objects, which wouldn't even be close to what would be actually encountered, in a linear 12 light year journey to say Barnard's Star. Depending on your final speed close to C, the energy required to move objects out of the way could easily exceed the total energy of the universe.
Cheers - Dave
Personally I don't think the Hilbert effect will work as postulated by Frank Felber and therefore particles and objects will not be repelled by a ship traveling at close to C, the particles and objects will simply not have enough time to get out of the way without a massive injection of energy. If we look at at other propulsion methods such as "warp" type drives that create gravity wells in front of and gravity expansions behind a ship, we get a similar problem in that local objects will be drawn in towards the gravity well created in front of the ship. Similarly, if a spatial "vacuum" is created in front of a ship, the same problem arises, matter is drawn into the controlled area.
I have the same problem with inertial propulsion, you can achieve very close to C at a g or more acceleration over time, but there is still that nagging problem of particles and objects impinging your ship at the speed you are traveling. One thing I have considered is that an object of mass traveling at close to C might create an enormous electrostatic field, which could possibly repel particles and objects, but I have not been able to test this experimentally yet.
Cheers - Dave
the gradient is spherical with the highest point of the gravity well on the center line. in other words stuff falls from the center line following the curved space.
stuff that managed to get through would only be traveling at warp during passage into the interior where velocity of the ship is zero. upon entering the interior space it's warp velocity boost simply goes away. warp acceleration does not carry over in real space. so the only velocity that counts is the particles velocity from before impinging on the warp region shell.
as with hilbert and felber: if you accept other parts of relativity theory which has pretty much passed every test every done of it for over a century it is irrational to dismiss another aspect of relativity because it smells peculiar to you. time dilation is peculiar. gravity lensing is peculiar. most of relativity is peculiar. the only grounds to dismiss felber and hilbert is to find an error in their calculations. that has not been done. i don't think it can be. I certainly know i lack the math skills required to critique them. i believe they were right. ifthey weren't other theoreticians and would have flogged them but they haven't.edit on 17-3-2014 by stormbringer1701 because: (no reason given)
bobs_uruncle
Time dilation is only peculiar because we are forced to think in relativistic terms and if you examine BEC based time lines you will find that there is an underlying absolute temporal frame of reference
bobs_uruncle
Now, let's say you are traveling at 99.99% C. You have to move everything else out of the way at 99.999% C or higher. Imagine the energy requirements to move one hundred 500gram objects, which wouldn't even be close to what would be actually encountered, in a linear 12 light year journey to say Barnard's Star. Depending on your final speed close to C, the energy required to move objects out of the way could easily exceed the total energy of the universe.
paranormal78
I recently read about an experiment done in a lab in London UK on gravitoelectromagnetism (mouthful I know) in hopes of achieving artificial gravity for long term space travel. I'm not talking about the annoying impractical way of generating gravity by rotation, but gravity we see commonly like in star trek and other works of science fiction. One of the main reasons we haven't been to mars yet is because of the effects of weightlessness on the human body. The reason There hasn't been any actual achievements in space missions in creating artificial gravity is because they just don't take it seriously on most missions and ignore it as science fiction and never bothered to test any platforms for generating artificial gravity in a weightlessness environment. Artificial gravity would make manned space flight far less challenging and much more safer. Anyone else truly believe artificial gravity is possible for space travel or know of any other serious experiments being conducted on artificial gravity?edit on 13-3-2014 by paranormal78 because: (no reason given)
RevelationsDivad
paranormal78
I recently read about an experiment done in a lab in London UK on gravitoelectromagnetism (mouthful I know) in hopes of achieving artificial gravity for long term space travel. I'm not talking about the annoying impractical way of generating gravity by rotation, but gravity we see commonly like in star trek and other works of science fiction. One of the main reasons we haven't been to mars yet is because of the effects of weightlessness on the human body. The reason There hasn't been any actual achievements in space missions in creating artificial gravity is because they just don't take it seriously on most missions and ignore it as science fiction and never bothered to test any platforms for generating artificial gravity in a weightlessness environment. Artificial gravity would make manned space flight far less challenging and much more safer. Anyone else truly believe artificial gravity is possible for space travel or know of any other serious experiments being conducted on artificial gravity?edit on 13-3-2014 by paranormal78 because: (no reason given)
Whoa! Artificial gravity! 2-10 times gravity on the ship... hmm but will artificial gravity protect your bones from breaking down? I never thought of this because I haven't gotten to the study of gravity yet. I have much to learn with my possession!
Possession as in my highest reception of idea's. its pretty much ascention in the area of reception.
Good find OP!edit on 17-3-2014 by RevelationsDivad because: (no reason given)
mbkennel
bobs_uruncle
Time dilation is only peculiar because we are forced to think in relativistic terms and if you examine BEC based time lines you will find that there is an underlying absolute temporal frame of reference
By "BEC" do you mean Bose-Einstein Condensate? Could you please elaborate on this subject of "BEC based time lines" etc?
mbkennel
bobs_uruncle
Now, let's say you are traveling at 99.99% C. You have to move everything else out of the way at 99.999% C or higher. Imagine the energy requirements to move one hundred 500gram objects, which wouldn't even be close to what would be actually encountered, in a linear 12 light year journey to say Barnard's Star. Depending on your final speed close to C, the energy required to move objects out of the way could easily exceed the total energy of the universe.
Why would the energy to move 50 kg be more than the energy to move 50,000 kg if that's the mass of your starship which you have already presumed to get moving?
bobs_uruncle
mbkennel
bobs_uruncle
Now, let's say you are traveling at 99.99% C. You have to move everything else out of the way at 99.999% C or higher. Imagine the energy requirements to move one hundred 500gram objects, which wouldn't even be close to what would be actually encountered, in a linear 12 light year journey to say Barnard's Star. Depending on your final speed close to C, the energy required to move objects out of the way could easily exceed the total energy of the universe.
Why would the energy to move 50 kg be more than the energy to move 50,000 kg if that's the mass of your starship which you have already presumed to get moving?
Because the more mass you want to move the greater the energy required, we are talking about acceleration here, right?
Cheers - Dave
mbkennel
bobs_uruncle
mbkennel
bobs_uruncle
Now, let's say you are traveling at 99.99% C. You have to move everything else out of the way at 99.999% C or higher. Imagine the energy requirements to move one hundred 500gram objects, which wouldn't even be close to what would be actually encountered, in a linear 12 light year journey to say Barnard's Star. Depending on your final speed close to C, the energy required to move objects out of the way could easily exceed the total energy of the universe.
Why would the energy to move 50 kg be more than the energy to move 50,000 kg if that's the mass of your starship which you have already presumed to get moving?
Because the more mass you want to move the greater the energy required, we are talking about acceleration here, right?
Cheers - Dave
Yes. If you're doing conventional flying and getting 50,000 kg to 0.9999 c, then that has to take more energy than moving 50kg out of the way at 0.9999c.
Am I missing something obvious?
bobs_uruncle
[
No, not missing anything but the actual numbers and I don't really feel like working them out. However, if you are moving a ship of 50k kg's at 99.99% C that will take a specific amount of energy to accelerate and then maintain that speed. If you come upon a mass of 50kg and have to force it our of the way, that will also take a specific amount of energy because of the relativistic speed at which you are approaching the object and the simple fact that it has to be moved, quite possibly at right angles to the direction you are traveling. It wouldn't obviously take as much energy to move the object at 0.1% of your ships mass as it would to change the ship's direction, but it would probably take something in the range of 0.2 to 0.4% of the energy being used by the ship to travel through space for both deflection and course correction (action and reaction).
Cheers - Dave
Depending on your final speed close to C, the energy required to move objects out of the way could easily exceed the total energy of the universe.