The Enterprise Dorsal Problem: how did the turbolifts pass through it? 

🤣

That's the kind of sophisticated stuff we can look forward to in the 23rd century 😂

Especially Spock and the Romulan Commander's lengthy ride all the way down from deck 1 to deck 2

AI of the future is scary 👀

Who's been holding up the damn elevator?

huh?

​@@crsrdash-840b5Star Trek V reference

@@RCAvhstape do you mean JJ enterprise?

@@crsrdash-840b5 No, the rocket boots scene from Star Trek V.

And, of course, adding to the ridiculousness of that scene, the decks numbers grow in the size as you go up, instead of down, like it’s supposed to be. :-)

This is how I'd always imagined it as well.

Yeah me too

Thinking about it when the Reliant phaser hit the port side torpedoes side launcher it must have taken out the turbo lift as Captain Spock stated that hit had taken out turbo lift and thereby they had to climb to a deck where the turbos where still working. I agree with the fact the neck section was too narrow and should have been a little wider to accommodate extra turbos shafts. It also best to remember if there was a evacuation of the star drive then there would be little time to get everybody out due to limited number of turbo lifts

Turbolifts also don't have to remain upright. They can turn sideways and the passengers wouldn't know it due to artificial gravity. This allows them to save space and pass through tight sections.

@@Novusod In ST TOS, the deck indicator lights in the turbo elevators either flashed horizontally or vertically, denoting their direction of travel. Had the elevators traveled in the way you describe, the light would only have flashed in the vertical direction. This would have been the case because the passengers would have been traveling head first or feet first if the elevators moved in the way you suggest. Andrew Probert had input into the cutaway poster of the refit Enterprise and all of the elevator shafts were oriented either horizontally or vertically. He also told me that if you look very closely, you can see that he drew representations of himself and his wife in the arboritem.

That's exactly what was going on.

Nailed it!

It may well be that those lights are for the benefit of the crew inside rather than actually reflective of the outside, so lights moving on the vertical axis could still be shown even if the lift is traveling diagonally. (Of course, in actual fact the lights are just there for the benefit of the cameras and the audience :D)

They could simply go horizontally as well. Given the size of a Galaxy's saucer using a turbo lift for a cross saucer trip makes sense. Getting to the secondary hull of an Oberth flat requires the cabin of the turbo lift to tilt on its trip.

@@mikespangler98 Maybe the Oberth class uses the 2D-Space technology to flatten the turbolifts like that one episode in the Orville :)

Functionally in episodes we have seen lifts jam, in next gen they had to pop the top of one and climb to a geofrey tube.. which also implies lifts usually run parallel to Geoffrey tubes

they are maglev I think. Fun note an RL elevator company has shown a functional elevator using this tech and it does work like a turbolift able to go vertical and horizontal.

There is some two dimensional thinking going on here! The "grav plating" idea that there's some magic artifical gravity generation going on in the decking inside the turbo lift means that the lift capsule didn't need to obey the idea that the lifts move strictly vertically like the elevator in a building. Imagine the turbolift capsule could take a curving path as it traveled the tube shift. It could travel in any configuration so it appears from the outside to being any orientation like flipping over on its side and the occupants inside would experience no change in its internal gravity always going down to its internal floor. It could do loops like a roller coaster car but sealed inside with the doors closed its occupants wouldn't experience any change in inertia. Inside the turbo lift the gravity is local. In fact the lift could be completely "upside down" in relation to viewing it from outside yet the occupants wouldn't be aware of that inside. This frees up the shaft to run any way you please instead of going in strictly vertical or horizontal directions as it travels as shown in the animations. The overall width of the dorsal is still a problem, but again what we see as shafts rising vertically between decks isn't necessarily restricted to being horizontal as well as vertical in the blueprints. The parts of the sets we see have to go vertically as that's the only practical way to build them in a sound stage, but who's to say with magnetic constriction inside the matter antimatter tubing once the they disappear up in the ceiling don't start curving like bending pipes like plumbing tubing? A tubolift shaft could be bang up against the mix tubing as it twists past it as the magnetic containment must keep any heat or radiation contained inside the "glass" we see in Engineering right? So the mix tubing could be bang up against the inside of the dorsal hull on one side and the tube shaft on the other and the structure members and hull plating in the fragile looking neck of the dorsal be the densest and strongest on the entire ship. It would have to be to prevent the thing getting twisted or sheered in half between the primary and secondary hulls as the whole ship moves through space. The structural integrity field must beef up that strength in relativistic speeds, but once the warp field forms the ship itself is experiencing no inertia changes or the crew would be goo. Practically the neck could have been lots wider like in the galaxy class and not really affect the look of the model ship, but Jefferies just drew it insanely thin and the model was built that way for looks. Now you REALLY want a brain-melting problem try fitting all the sets seen in the Discovery in the film "2001" into the round hull of its model! It's like Doctor Who's TARDIS where it's bigger on the inside due to "transdimensional engineering" so it's enormous interior fits inside a tiny exterior! The 4th Doctor explained it hilariously to Lela who listens and proclaims "That's silly!" to which The Doctor proudly proclaims "That's Timelord engineering!" I'd give anything to know the reactions in the actual 23rd century to our 20th century imagings of their time! As we look at old 1930s-50s scifi serials like say Buck Rogers, they will be rolling on the floor laughing at any of our current TV shows I'm sure. The transporter is likely to forever be the silliest "tech" ever imagined - but then again maybe it will inspire them to muse that tearing a human apart into its atoms and reassembling them is silly, but come up with a way to simply flip people through an inter-dimensional wormhole to their destination? The actual 23-25 century technology made so weird we can't even begin to imagine it now. Look at how bang up until the year 2000 no scifi show or movie anticipated smart phones. No one has them in "Blade Runner" set in 2019. Anything written decades ago in stories set after 2000 anticipated them. Scifi is just often lousy at predicting future tech...

Another point to consider if this is the case: If the Enterprise were boarded in the engineering hull, a few security people placed between those two lifts could control the pathway to the saucer section. Sometimes the best way to stop the enemy is to take away the ramp he's counting on...

exactly. just because it is not show in the movies or in the series, we can safely agree that things must be there to keep the crew alive and solve functional issues like having toilets and whatnot. having two turbolifts AND a small path to walk between them is fairly logical. like in huge buildings (like airports) having a lift between two sections is not possible but having two lifts and some walkway between them is all it takes. and it has some advantages too. should one turbolift break down, you can still at least cover half the journey unaffected by the broken one. :)

​@@ComicsluvrWait... wouldn't that put the security bottleneck, and likely gunfight... kind of right on top of the friggin' warp core? This sounds like a bad plan.

​@@CptJistuce LoL, like that time a Klingon held the warp core hostage with a phaser in TNG...maybe it would lead to a stand-off, but any fanatical person might just say welp, I guess we'll all blow up then!

It's an INCREDIBLY simple solution and frankly I don't get why people are wracking their brains about it.

a fittingly legendary name for the inventor of such a design

Most well known as the cousin to Gay Bowser

This, it does indeed do complex maneuvers in the Impulse Engine complex.

I'm also content to believe that the size of the sets are generally larger than they would be in the real world of the fiction. They designed them to be easy to shoot scenes in with both space for cameras and lighting and comfortable blocking of the actors. It's like your average sitcom living room set vs most actual living spaces, even relatively poor families like the Connors lived in extravagant excess if we take their floor plan as literal.

@@DrewLSsix excellent point! There’s an awful lot of room on those walkways around the warp core.

@@DrewLSsix just like submarines in movies too. Hard to make accurate and still have a practical set for filming.

Let's not forget the filming whoopsie in one of the movies where a shaft appears to run vertically for 60+ decks (according to deck markers) in a ship with less than 30 decks total?

@@Krahazik you mean that scene where Spock has the rocket boots and the turboshaft looks like it could be a lobby to observation deck elevator on the Empire State Building?

True. We all assume the core goes through the whole neck. But that is even not logical when we remind ourselves that this ship can saucer seperate! Most likely the impulse drive and the saucer section is just connected to the warp core by two high energy connectors where the hull is made steadier, and in between them on Deck F the turbo lift passes through.

Or just runs on tracks on the outside of the hull

Not really: Most ships from the Excelsior onwards have a big enough neck to have a turbo lift pass through. And the nacelles were before and also after the NCC 1701 D only reachable by stair shafts. Also, don't forget, that you don't really need an easy access to that nacelles: When they are at warp, the nacelles are a no go zone anyway and when they need to repair something, they can also reach the nacelles by a small space walk! Just get out of the ship near the bottom of the nacelle and walk up that 200m to the entrance area in the nacelle.

@@Quazgar_of_the_North XD that would be incredible

Exactly this. You can kind of tell when Kirk enters the engineering space in TMP that the intermix shaft tappers as it goes upward from there, likely because the impulse engines don't need as much plasma as the warp drive.

@@captainyossarian388 Agreed, or it could split up against the walls on the way up to feed the individual impulse engines, leaving a gap for the turbolift to go through.

WHAT IS THIS NONSENSE ABOUT WARP CRYSTALS? The impulse engines ran on deuterium.. PRIOD.. No warp related anything. They were NOT powered from Engineering directly

@@ZakhadWOW I feel you're confusing two comments as one. Warp cores operated off of dilithium or lithium crystals (depending on class/age of ship), and impulse engines did indeed operate off deuterium. However the original person noting warp core crystals said nothing about impulse, the follow up comment did. That said the general model of a warp core is that antimatter is sent into an intermix chamber and deuterium is injected in as well to which it created a plasma energy put into a matrix made of the relative warp crystal (dilithium or lithium) which then basically became your warp plasma (the energy for warp) and electro-plasma (the energy powering the ship). Impulse drives otherwise were self-sustained with their own fusion reactor though correct (at least I assume that's what you meant by "not powered from engineering directly"), however they were still tied to engineering sorta, in that use of the impulse drives created a byproduct of electro-plasma also (which is why at least in some episodes of different star trek series', even if the warp core was 'shut down' or ejected, etc, the ship still had power likely fed by a general use of impulse drives).

@@ZakhadWOW They always call that dome the "warp crystal", although it's not. It's just a glowing part of the impulse engineering facility.

But then he would have had to go through a door to access the warp core observation area, and THAT door would have had to be in the center. Having it off to the side means he walks into the starboard torpedo tube...ahhh gotta love those trekonsistancy issues lol.

@@02ujtb00626 Oh your right, I forgot the tube shaft is down the center and then spits off. I suppose he can duck under it!!😄

@@02ujtb00626 Especially back then, I don't think they put too much thought into how spaces would fit within the ship. Kind of like how in most games, the interior space of a ship often does not conform to the exterior model of the ship.

ugh... I'm trying to forget that.

Please stop reminding us that STD exists.

When looking at the older USA Battleships, a lot of small and only designed as emergency escape tunnels in certain parts of the ship were filled with pipes and cables as they were modernized. Not worth it drilling holes through thick armor or lots of decks. What if the warp core goes through the old turbolift shaft. If turbolift tech has advanced like everything else, maybe the space needed for that has decreased letting room for it to go around the core. Makes no sense to have on each floor for there to be a big room where you can walk around the core. That space is definitely being used to run a lot of eps, data and what other "future pipes and cables" necessary for the ship to run.

Nah, you're reading those wrong. That's a Jefferies tube. The turbolift shaft runs behind the intermix chamber, and just above the photon bay runs horizontal to go behind the photon bay and down into the secondary hull.

@@Jarsia Well, the way that you can tell on that deck plan, usually, is whether it has some medium-sized empty white circles in the passage. Other than a few exceptions here and there, those represent vertical turbolift shafts - the symbol legend shows this. And then, turbolift doors are usually the shaded circles that have one slightly flattened edge where they meet a walkable passageway. I do see a Jeffries tube in the aft part of O-deck (labeled "JT") that looks like it can be accessed by a turbolift door. Now the plans aren't perfect - I spotted a place in the saucer where it looks like they were missing vertical shafts. But their idea for a half loop around the warp core seems feasible.

@@jimwesteven2023 I do wonder if we're looking at the same versions, as the ones I have are dated to 2009. Got them off cygnus-x1

@@Jarsia The one I was looking at was also from cygnus, but dated to 1992. That brings up a very good point, though. There's no such thing as a definitive blueprint. All of them are works of imagination, and equally valid. But I just had a thought - the ones I was looking at were for the Enterprise-A, not the refit. So it's not even the same ship, LMAO. It might have the same turbolift layout as the refit or it might not - impossible to know. The thing I liked about the Ent-A plans there was that they actually have an overhead view instead of the side view schematic. Seeing an overhead helps get a sense of the volume of the space and is more "fun" to look at. Though no more definitive of course.

@@jimwesteven2023 yeah mine also have the deck by deck layout. I tried commenting with a link a few days ago but the comment kept disappearing

I think in the MAD Magazine take on The Search for Spock they said that the Excelsior had a mall in it. I'd believe it. It was the Eighties.

My headcanon is the lower part of the Oberth is just a big sensor pod. No fixing the Miranda tho.

The issue with the Oberth is compounded by the fact that its early design envisioned a 180m long vessel before it was canonized as 120m long. The windows are scaled for 180m and do not make sense with a 120m long ship. Back to the issue, I saw some blueprints showing both the Oberth and the Miranda using closed-circuit intership transporters to access their respective outrigger hulls. With the Oberth, it also had a Jeffries tube in each pylon with a single person lift that also allowed access. When looking at TMP era ships, one requires a bit of suspension of disbelief to presume that the building materials are far superior to anything we have now, allowing such narrow connections while maintaining integrity.

@@schwartzritterx5905 well, it's a space ship, and in space, the forces acting on the various structures are massively reduced compared to the gravity well on a planet

The excelsior is easily explained as needing much more space because its a ship that's designed o operate much further from port, and thus needs more supplies and fuel onboard to go longer distances. Likewise Excelsior is also a much more powerful ship than constitution, and having more powerful shields and weapons demands a larger hull to fit in bigger power generation and transmission equipment. If anything, constitution is far too small for an interstellar spacecraft.

I always thought that there were smooth Jeffreys tubes in the pylons of the Oberth, where you just jump through a hatch and slide down to Engineering. So much fun. Maybe reverse gravity to slide back up? Ridiculous, yes, but just look at that thing.

The suggestion had been made on the Trek BBS, several years ago now that the lower hull I'd actually the warp drive or( my idea, a production prototype transwarp drive). This solves many problems in that a transwarp prototype explains why the Excelsior was built, and it eliminates the need for a crew down there. Too much potential for radiation. Now about the 'warp' engines... Two possibilities, the first is that they are deployable sensor houses. The second an emergency way home warp drive. It would be much slower than the transwarp prototype, but would get you home faster than impulse power. As to sensor capabilities the one sensor you really need for a survey ship is a better clock. By knowing the precise time better, a force multiplier is obtained. So 'conventional' sensors would be by the virtue of the better clock that much better. To compare the original LIDAR, with current top of the line versions. They can image the rainforest floor. Versus synthetic apicture radar.

Thats why people are so impressed with the Star Citizen spaceship models. They have to be fully planned out how they work and what the layout is. So no doors vanishing into the wall without having space for it etc.

Being on the Paramount lot does not give you exposure to any of the pre-production & design process that you are commenting on. But sure, most workers on set don’t need to know this stuff. Not really relevant.

@@vast634 Big difference between building a full model in a computer and designing physical sets for a movie.

I wrote a reply but I think it got filtered. This will be a little shorter but I’ll try to cover the main points. Andrew Probert used to maintain a blog where he posted a lot of original blueprints and sketches for stuff he worked on. So that includes the TMP Connie, the Galaxy-class, the DeLorean, and AirWolf. He laid out his thought processes and was generally a stickler for trying to ensure there was enough room in the model to accommodate its inner workings. The blueprints at least include mention of the saucer separation, and show a sort of connector into the “impulse deflection crystals” at that point. It does seem a bit overwrought though. But on his own blog he criticised himself, wondering why he decided the warp core should connect to the impulse engines at all. His placement forward in the dorsal was a result of connecting to the impulse engines, and he knew he felt like it made sense back then to do double duty on the same power plant, but looking back on it he thinks it should’ve been separate systems. He did carry that insight over into the Galaxy-class at least, which had completely separate impulse reactors. The blueprints for the secondary hull also don’t make any mention of the lifts, mainly just the engines, shuttle and cargo bays, and the arboretum. I suppose he thought he was blocking-out the major parts and the rest would get squeezed-in, which works with wiring but less-so with elevators!

@@kaitlyn__L The only thing that makes it make sense for me is that for safety, antimatter is stored at the bottom. The intermix is in line to take it to the nacelles. The matter component must be stored by the impulse drive. It could be using the same fuel for the core as for the Impulse fusion drive. Also the EPS power could be sent up separately from the core into the dilithum Deflection Crystals to boost Impulse engines. We know that phasers were tied into the warp drive. This would explain why the core is crazy long compared to other federation ships. The Miranda just does not need that length between it's duel fuel sources. The Refit Enterprise really seems to just be a ship that has been as modernized as humanly possible because the ambitious Excelsior project took longer than expected to be completed and they needed ships capable of combating the Klingons. They got as powerful as a ship they could on that old platform.

bottoms up!

A wise person once said, "if you're wondering how he eats and breathes, and other science facts, (la,la,la!) Just repeat to yourself it's just a show, I really should relax..."

I can't believe they put the warp core there. That's crazy. I always assumed it was further back in the ship and that top blue plate was a sensor dome or fusion reactor for the impulse drives.

Star Citizen is one of the few games where (due to the nature of the game) they had to fit the interior spaces to the hull of the ship.

Don't get me started on how the Millennium Falcon can be classified as a freighter when it seems to have no internal cargo space

Same issues with those pylons holding the warp nacelles in place. The whole ship is like an ice sculpture of a swan: so elegant, so beautiful, but ridiculously fragile.

You're forgetting the "Structural Integrity Field" as well as the "Inertial Dampers" AKA: Wizards magic. They already made in universe excuses to justify the pretty designs.

@@mzaite Oh, I try to forget those things. I try.

this is the way I always viewed the Refit/A myself

Andrew Probert’s blueprints.

@@kaitlyn__L We ca probability ignore it and say the vertical intermix chamber stops two decks above main engineering. The saving grace is we never see how far up it goes, we see Kirk one level above engineering and it rises in front of him to the ceiling so it might terminate some where up around there.

Most of the hangar space issues make no sense but the enterprise d's main shuttlebay took up parts of three decks of the saucer section and used a good chunk of the saucer section on those decks

This makes the most sense.

@@Melkur1981 While I'm on the subject of occams razor, I never understood why star trek ship designs have gravity (the floor) being always in the same direction when gravity is controlled through Gravity Plates. I would have assumed different gravity for each section. The Saucer can have floors on the x axis sure, but the dorsal section would be two big floors with the 'Foor' the part people walk on running down the middle (on the y axis), so that the big energy transfer cable can be accessed at any point from a single floor with people walking alongside it! The lift here would essentially work like a conveyor belt connecting the top of the ship to the bottom with one side going up () Possibly with a wrap around on either end like a Paternoster lift.. The lower part of the ship I would have the gravity going in a different direction again, on the Z access so create a large number of smaller floors that could be serviced by a single lift rather than have wider floors.

The Galaxy dorsal is somewhat triangular in section,... small lounges or other spaces up front, expanding to very large areas at he back.

Junkball Media estimated the neck was about eight feet across.

@@misterlyle. At what point? The plan sections bulge slightly-

@@AndrewProbert Thank you for your reply! Junkball is a channel on this platform with a video that discusses this topic: "USS Enterprise's Neck Width." The host has a humorous style that I enjoy; I watched the video a while back but just reviewed the video. His analysis shows the original Enterprise's neck viewed from the front or rear would be 3.85 meters, or 12.6 feet. My previous comment was based on memory, so eight feet may have been my own estimate of what the interior space might be.

Yeah, but he has a point!

Were you wondering how he eats or sleeps, and other science facts?

Hey fellow MSTie!

ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-4Ugebzq3juE.html

When it comes down to it, saying things like this doesn't mean anything. Everyone knows it's just a show and that it doesn't have to make sense. That has nothing to do with what is being talked about here.

Spock had to use the Jeffries tubes to get to engineering because the turbo lifts were inoperative below C deck. He told Kirk this after returning from the Genesis cave. They climbed up the tube from the transporter deck and presumably boarded a lift on C deck to get to the bridge.

Like that ship in the Tim Allen movie...

Funnily enough, another poster and I came to a similar conclusion (about jettisoning the lower saucer and just using the legs for stabilisation) a few days ago! The extendable turboshafts is a useful extra feature though 👍