monophonic
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Everything posted by monophonic
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All it comes down to is the non-delivery clauses in the commercial crew contract. Boeing will go whichever way costs less, whether that is pushing through with the currently contracted launches, or canceling Starliner and paying whatever fines they must. Now I do not know what sort of penalty clauses the contract includes, so it very well may be the cheaper option to break it. Even free, knowing how some governement contracts in my country are...
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AI Augmented Camera Missiles... Here Already Or On The Way?
monophonic replied to Spacescifi's topic in Science & Spaceflight
ASRAAM, AIM-9X and probably Python use imaging infrared seeker heads. At least Python is purported to be capable of choosing which part of the target aircraft to attack. I presume such functionality would use pre-AI image recognition technology. This is, as mentioned above by a few posters, a short range technology. However some anti-aircraft missiles do now combine radar and infrared seekers into a dual method solution. These include RIM-66M Standard Missile 2 Block IIIB, and Stunner missile of Israel's David's Sling system. However, at least AIM-9X has been proven to still be at least somewhat vulnerable to simple flare countermeasures ( https://en.wikipedia.org/wiki/Ja'Din_shootdown_incident ). Below is a QF-4 target drone as seen by ASRAAM seeker. Image sourced from a post at f-16.net ( https://www.f-16.net/forum/viewtopic.php?f=18&t=7883&start=18 ). -
Thanks! That sounds like a kerbal design all right. I did go through all the links, but all I saw was the black image. I have no account of any kind though, so might not need to be verified to see.
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Well, they could use Vulcan for the cargo Starliner (Starhauler?) launches. Of course that would require work to integrate the capsule with the launcher, but not needing to crew rate all that should help some. Also, unless Boeing has already decided to cancel Starliner after current contract, that work is in the engineering roadmap anyway. Whether that can be done in time for launches in 2025 is another question though...
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For Questions That Don't Merit Their Own Thread
monophonic replied to Skyler4856's topic in Science & Spaceflight
I'm not sure I follow your vectors correctly here. As I understand this, the advancing blade generates more lift while the receding blade generates less. This tries to tilt the rotor sideways, not back to vertical. This effect increases with the airspeed. A helicopter compensates with the cyclic so the receding blade has a higher angle of attack than the advancing blade. A multirotor does not have cyclic control. Are you trying to imply that in a two rotor situation the drone would settle to a drift perpendicular to the line between the working rotors? Also, are you sure the restoring torque you mean will try to restore the rotor axis back to vertical in the world sense and not perpendicular to line of movement? Because the latter is unlikely to be exactly horizontal, and likely to deviate even more from horizontal as the small imbalances cause disturbances. Even a small downward pitch will lead to a crash unless corrected by active measures, and a small upward pitch will lead to a large downward pitch when dropping air density leads to a rotor stall. There is a reason full size helicopters are not considered stable even in a perfect weather. A small multicopter is a lot more susceptible to the atmospheric disturbations, that will disturb even a full size helicopter to a crash, if not actively stabilized by pilot or electronic controls. Also, I realised it isn't possible to arrange the (quad) rotors so in a two rotor situation the remaining rotors would spin the opposite ways. Doing that would couple torque control with rotation about a horizontal axis, which is not conductive to a stable flight. So we end back to needing a minimum of four (fixed) rotors to stay aloft. -
For Questions That Don't Merit Their Own Thread
monophonic replied to Skyler4856's topic in Science & Spaceflight
Two out of four leaves no control over rotation around the line between the two working rotors. May be survivable in a high school textbook (ignore all other physics) scenario, but you don't need much imbalance in weight or air resistance of the two dead rotor arms, or turbulence in the air to get the airframe rolling uncontrollably. Yes, someone needs to mention the CH-47. Those have control over the rotor to rotor line by varying the blade angles on either side of said line. Cyclic control could make two engine situations survivable, however the cost and complexity would be exorbitant. Technically doable, though. RC helicopters existed already in the 80s, probably earlier. Even if the rotor could run in reverse, you would lose all torque control in that situation and start rotating wildy around the vertical axis. Another unsurvivable scenario right there. You simply need at least four and an even number of fixed rotors working to have control of the flight attitude. You can replace one rotor by adding tilting on another, but the total number of moving mechanisms stays the same. Plus you complicate the math, add to the count of different parts required and one rotor needs to be connected via a moving joint. All things conspire to make four rotors the optimal number. -
Those engineers have access to a myriad of chips that take full advantage of the benefit of Earth's magnetic field protecting them from the radiation of space. Exposing them to deep space conditions would quickly turn them from "network chips" to "random number generators with extra steps." When you combine the requirements of radiation hardening and certified for space, you are left with a very short list of potential chips. It is very possible that only one chip can provide those and the required network performance. Now, replacing failed chips is one thing. It is a lot harder problem, if said defect is in the design of the chip. In that case replacing chips does nothing. There are only two ways around that. You could use a different chip, assuming one is available. That will require re-designing, manufacturing all the surrounding electronics, which takes time and money. Or you can try and work around the defect in software, to prevent the defect from triggering. That also takes time and money. Even if it is individual chips failing and not a design defect, there must be time and money spent to understand why they failed and if that could happen again during the operational lifetime of the station. So, no way out of this that does not require time and money.
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But most importantly you can not certify a vehicle that has uncertified software. I bet a lot of components in DreamChaser already have their certifications, and any changes requiring re-certifying would be expensive...
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For Questions That Don't Merit Their Own Thread
monophonic replied to Skyler4856's topic in Science & Spaceflight
I feel the issue of adding catenary has been exaggerated there. Many lines in the New England area used to have one as well. What exact infrastructure are you thinking of? This side of the pond the railbed is often lowered by a couple of feet to get the needed extra height in a tunnel or under a bridge. Through trusses can be a little more difficult, we have a few where the top cross members have been replaced with upward arcing parts to make room. A bigger issue I see is the extremely tall pantographs needed to reach a catenary that fits US style double stackers and autoracks underneath. The rectifier thing is a non-issue. Most currently in production electric locomotives use a DC intermediate circuit anyway, thus have such a rectifier circuit. It is an off the shelf part. Also battery-electric trains are now available from multiple manufacturers (Siemens, Alstom at least) and starting to enter service in Germany. They are mostly replacing diesel units on unelectrified rural lines though, charging in the cities where catenary power is available. Torque balancing with an odd number of rotors is a complex issue even in a drone. You need the ability to tilt at least one rotor, extra anti-torque rotor like on a single rotor helicopter, or very precise tilt and RPM equalization like on the Cierva. Meanwhile even number of rotors makes it trivial, as you can rotate equal numbers of rotors in opposite directions and adjust with minor changes to RPMs. I see no advantages in having three rotors over four. The driving force on tunnel sizes in high speed rail is the impact from the pressure spike caused by the train entering the tunnel at high speed. Removing the catenary will not allow reducing the size of the tunnels. Only limiting speed in tunnels would, but that would negate the advantages of building high speed rail in the first place. The arc caused by the air gap would eat at the wire and pantograph like no tomorrow. This is already an issue with traditional wire and carbon brush panto in freezing conditions. Newest locomotives here have an option to have the forward pantograph disconnected but up just to brush ice off the wire so the connected rear pantograph can make better contact with the wire. The need to prematurely replace wire due to pitting from arcing is just that expensive. The electric company won't provide the power lost in the arc for free, either. I once traveled in the first car behind an earlier generation electric locomotive in a cold winter night. The light from arcing lit up the terrain by the track well enough you could have read a book there, and it was an almost constant light. There was a lot of energy lost as light that night. -
For Questions That Don't Merit Their Own Thread
monophonic replied to Skyler4856's topic in Science & Spaceflight
Fully buried in constantly wet terrain is no problem. The multitude of swamp mummies discovered attests to the ability of matter to stay together in a low oxygen environment. For railroad sleepers the problem is that they are by necessity exposed to air from above, and thus get wet and dry out repeatedly as weather, well, weathers. If that wood can handle that for a century, I'm amazed! Regular creosoted wood ties last about thirty years, I think. Future is in concrete or new materials though. As amazing as wood is, modern management methods make the consistent predictability of those a very valuable property. Trees are always individuals and sleepers made from any wood have much higher variability on durability and dynamic behaviour under load. -
For Questions That Don't Merit Their Own Thread
monophonic replied to Skyler4856's topic in Science & Spaceflight
Wooden railway sleepers is the only remaining allowed use for creosote in the EU. It is in general forbidden due to the carsinogenicity, but no-one has been able to devise a treatment that makes wood survive even half as long buried in ground, thus creosote is still allowed in sleepers. Wood and concrete sleepers have somewhat different properties making replacement of one with the other not a straightforward process, unless you can accept a severe downgrade in allowable travel speeds. The crushed stone ballast used with concrete sleepers breaks down over time, as passing trains causes movements that grinds the individual rocks against each other. Natural erosion processes also occur, even cracking stones in halves. Thus the ballast needs to be renewed or replaced periodically. Renewing includes filtering out undersize stones and adding fresh ballast to balance the lost amount. Some filtering machines use rubber beaters rotating at high speeds. Sufficiently large stones get thrown a small distance by the beaters while too small, lighter stones fly farther and are discarded beside the railbed. They should be caught and funneled down though, as big-ish rocks flying at high speeds in open areas are a safety risk. -
S&Sf crew; fallback forum community?
monophonic replied to JoeSchmuckatelli's topic in Science & Spaceflight
No KSP being marketed, no incentive for the publisher to pay to keep the forum online. -
For Questions That Don't Merit Their Own Thread
monophonic replied to Skyler4856's topic in Science & Spaceflight
I'm pretty sure the units I've owned all worked with bang-bang magnetron power control. Mind you majority of them have been visually identical other than the front panel, so probably all came from the same factory in china. The "PWM" frequency appears to be on the order of 0.1Hz or so, judging by the cyclical changes in the hum and how melting of butter in the first few seconds is not affected by the power setting. The spinner does not stop though so it must be powered separately from the magnetron. Never took one apart though, and ain't gonna touch the current unit as it still works. -
So when an accident renders your top performing crew member a quadriplegic, out the airlock he goes? Where do you draw the line between a deadbeat and someone worthy of sustenance due to their prior performance? Who gets to draw that line? Does the rest of the crew just take it and wait for their turn to slip below that line?
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IDK about SpaceX, but NASA has been investigating using local materials for housing structures. So how much would you save from that mass if all of foundation, floors, walls and roofs were made from martian minerals? 90%? Presumably surface materials like wallpapers/paint, flooring, probably window glass, etc. would still be brought from Earth. Most of dome material as well, I think. Could there be weight savings by accepting a large number of small(er) domes? Then if you accepted a more european standard of living? So halve the average floor area per capita desired. That doesn't exactly halve the mass requirement, because all rooms still need four walls etc., but it should still be a significant reduction. Could drop it even further if going eastern europe level. Of course this will make recruiting new martians harder, but let's have that discussion another time. I don't think any numbers we might reach will make Mars City happen in our lifetime. I'm just interested how the numbers change if we adjust some of the assumptions slightly towards more realistic.
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Practical experience tells that, for squishy meatbags i.e. humans, the limit is 9g and even that only for a very limited duration. Meanwhile smaller non-squishy things are turning in excess of 60g and functioning like a machine, i.e. what those missiles in fact are. If it wasn't far more efficient to have the light weapon do the turning instead of the heavy launcher, manned aircraft would have been replaced with drones in air combat long ago.
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How do you shoot a moving target algorithmically?
monophonic replied to LHACK4142's topic in Science & Spaceflight
Well, for a stationary target you just head straight at it. This also works for moving targets as long as they move slower than your robot. That is called pure pursuit and is an unoptimal strategy though. Improving from there depends on what kind of sensor your robot is using to track the target. If your sensor gives direction and range, you can track the target for a short while to get its motion vector and use those to calculate where to move your robot to hit the target. If you only get direction, you can steer to keep the angular velocity at zero. This has two solutions though, and only one closes in on the target. The other steers you away from it. You can distinguish them by whether the direction to target is closer to the nose or the tail of the robot. -
For Questions That Don't Merit Their Own Thread
monophonic replied to Skyler4856's topic in Science & Spaceflight
Russia has used depleted uranium in fragmentation warheads. I know Finland withdrew their R-60 air-to-air missiles from use over public concern of DU. (They probably didn't have much life left in them anyway, but I digress...) I do not think this is the case here though. This photograph is taken in 2013 when the Minsk was a theme park in China, so the paint job including the anatopistic NATO designation is probably of chinese origin. Since this location was most likely publicly accessible, I consider it most likely that the radiation warning sign is a sticker stuck there by some self-proclaimed peace activist. Most people inclined towards that behaviour that I have met (which is not many, I admit) would not have been able to differentiate a giant pencil from a nuclear ballistic missile. A conventional anti-aircraft missile would look like an ICBM to them. -
My apologies. I didn't mean to imply that. What I tried to communicate was that I think the source of the issues is 100% at the management level and cannot be fixed if fixing is not started there. But that has been quite thoroughly discussed since my last visit to this thread, I feel. There used to be a tradition, in our air force, that after a major servicing the chief mechanic who worked on the airframe was on board during the first flight. I don't know whether that is still a thing, although certainly it isn't possible with single seaters like most fighter aircraft are. But that would certainly have provided motivation to do the maintenance properly.
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It is starting to look like Boeing's management has been making some very big mistakes, in my eyes. And the system is catching up to them finally, I hope. The MCAS issue certainly wasn't caught before catastrophe. It may have been the "keep your seat belt on at all times" rule that was the last line of defence that prevented fatalities in this case. A bit too close for comfort for me.
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Mayhaps. I think among other things Boeing acquired this "open door policy" with McDonnell Douglas. See https://en.wikipedia.org/wiki/American_Airlines_Flight_96
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I agree the obvious instinct is to get as far away from the danger as possible. That said it is also common sense to not cut loose the strap keeping you tightly attached to your seat. So whichever instinct wins may vary from person to person. Anyone who was not seated and strapped yet is still inside the plane is likely to flee of course. All I hope is I don't have to find out which instinct would win in me.
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Could be just the angle. Zooming in especially the first image it becomes clear the black "plate" behind the nozzle is actually conical in shape, and its rim is clearly some distance off the backplate of the airframe. (Spaceframe?) Parallax from this offset could explain the apparent difference in engine position at these viewing angles. So the planned X-37C? Could probably still happen if a customer is found, but it might be tough competing with the Dream Chaser in the space plane category and CST-100 on the Boeing line up for commercial uses.
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Tips for improving FM Radio reception?
monophonic replied to StrandedonEarth's topic in Science & Spaceflight
This side of the arctic most radio stations have streaming available for free, so you could forget the FM. Any old cell phone + cheap bluetooth speaker can replace the radio set entirely. Assuming of course you can get wifi or cell reception (+ cheap data plan) in the shop. You wouldn't even need to set up any playlists if your favorite stations stream online.