[Edit: Wow, this rambled on a lot further than I expected - travel and don't get to look at the thread for almost a day and you try to respond to everything
]
Relax wrote:Jonathan_S wrote:(Oh, as an aside I'm assuming that even microfusion missiles have some capacitors to help with wedge start; like starships do. So they don't have to have a reactor scaled to handle that power peak. Then they can recharge the capacitors from the reactor after the wedge is up and the power siphon effect kicks in)
In reverse. Micro fusion is lit off inside current ships. So, no I doubt there are any capacitors to start the micro fusion. Now a pod on the other hand... Yes.
Umm, I said "wedge start" not "reactor start". I know the reactor is started in the launch tube
(that's why they have extra armor cofferdams around them).
Even in a starship they don't try to bring up the wedge from the instantaneous output of their reactors. They charge capacitors off the reactors and use those for the peak start-up energy.
(Possibly because the wedge may not that all that much absolute power to start, but needs it in a very short time)I was speculating that the microfusion powered missiles probably do something similar. A (relatively) small capacitor bank used so you don't need a reactor capable of a power output vastly in excess of your normal power levels.
Yes, the reactor starts in the tube, then the missile launches. Once it's clear the auxiliary capacitor bank I'm speculating about (plus the normal output of the reactor) is used to initiate wedge start-up. Then the reactor runs the wedge and also recharged my aux capacitors so they're ready to help bring up the next drive.
Relax wrote:Carl wrote:Sorry Relax but given the author went to the trouble of re-writing how grav pulse coms work when IRL physics made what he originally laid out impossible i think it's a safe assumption that honorverse ships do obey conservation of energy. Ergo your wrong.
Since when. Try actual text-ev for my bolded part of your post.
I don't know that I'd categorize it as "re-writing", but the earlier books talked about (at least artifical) grav as being FTL - it was fairly late in the series when he added the clarification that the FTL grav signals propagated as ripples along the next higher hyper-wall. Hence why the "effective real-time receipt" mentioned in HotQ was really 62x c (speed of light in the Alpha bands)
(though SftS says "sixty-four times the speed of light"; but I believe that's an error based on surround information and previous info dumps from RFC) -- full quote was
"Footprints, like gravitic pulses, were detectable by the fluctuations they imposed on the alpha wall interface with normal-space, which meant they propagated at roughly sixty-four times the speed of light."
That clarification has some implications on sensors and FTL transmission in hyper that haven't been explored in the text yet. (Though it come up from time to time in discussions here) Even in the Delta bands, while escorting merchant ships, the grav sensors (and FTL comms) would apparently only operate about about 1.32c - a far cry from the 62c they do in n-space.
That slower FTL in hyper seems to undermines part of the justification that McKeon gives for the Sarnow deployment of convoy escorts (in IEH). Yes, the ship out in front extends the sensor range, but if the FTL comm is only 1.33c you don't get the report back anywhere near as quickly as McKeon
seems to be saying.
Though even before the clarification I had issues with their plan, because it relied on Prince Adrian using a recon drone's FTL transmitter; because she hadn't yet been refit with her own. Works fine in a rift; but recon drones aren't built to operate in grav waves - I don't see why their extra FTL transmitter node would have the extra size and circuitry needed to tune it to avoid self-destructing when used inside a grav wave (effectively making it an alpha node)
