Plot:
In 2040, a large space ship named Event Horizon is built, incorporating a new propulsion system that allows instantaneous travel between any two points in the universe. The new technology will revolutionize space travel and free humans from our Solar System. Immediately after activating the new engine to do a test run to Proxima Centauri, the ship vanishes and is presumed destroyed.
Seven years later, the Event Horizon reappears in orbit of Neptune and emits an automated distress beacon. A team of U.S. military salvage astronauts goes to the ship to figure out what happened. Immediately upon boarding it, the rescue team realizes something very bad happened. Almost all of its systems are offline, and all that is left of the original crew is a mutilated corpse in the bridge along with bloody flesh smeared on the window panes. The team members also start having disturbing hallucinations and violent outbursts towards each other.
They discover that the experimental engine accidentally transported the Event Horizon to a different universe “of pure chaos and evil” where the indigenous life forms and laws of physics made the original crew go violently insane and murder each other, and then infused the ship itself with an evil, psychic life force that persisted even once it returned to our universe. The ship itself is therefore alive and is causing the rescue team members to go insane. It wants them to reactivate the special engine to take them all back to the crazy universe so the beings there can have fun torturing them.
Even though most people hate this movie, it’s been a guilty pleasure of mine for years. When I saw this in the theater at age 13, I think it was the scariest film I’d ever watched up to that point except maybe Alien.
Analysis:
In 2015 there will be a permanent human presence on the Moon. When the film starts, text appears describing 21st century milestones in space exploration. The film was released in 1997, so at that time, these events were in the future. One milestone was the establishment of a manned Moon base in 2015. That never happened in real life, and generally speaking, space exploration and space technology have proceeded much slower than it did in the film universe.
I predict a manned base will be built on the Moon in as little as 20 years, though it will have a tiny crew. It will be probably be the product of a broader space race between the U.S. and China, and that it will be a money loser that exists for prestige and scientific research. After an initial surge of attention, the public’s interest in the base will wane, just as happened with the International Space Station (ISS).
Profitable Moon bases might come decades later, and will probably center around the extraction of Helium-3 from the surface soil for use as fuel in future nuclear fusion reactors. While it’s tempting to think this would mean an enlarged human presence on the Moon to operate the mining equipment, A.I. and robots might be so advanced by then that humans would be unnecessary. As I’ve written before, I predict our machine creations will beat us into deep space, and humans like us might never even leave the Solar System. I’d be impressed if the off-world human population surpasses just 1,000 by the end of this century.
In 2032, commercial mining will start on Mars. The film’s opening text also says this. This prediction will fail, and I doubt the first humans will even land on Mars until the end of the 2030s at the earliest. Elon Musk has repeatedly predicted that his SpaceX company would take people to Mars by 2029, and his “Starship” rocket has the ability to get there and is now being tested, but other critical technologies haven’t even started development, like the crew vehicle that will house the astronauts for months long journey between Earth and Mars, and the landing capsule that will take them to and from Mars’ surface. By 2032, the best we could hope for is an unmanned mission to Mars meant to test out some of the technologies meant for a future human landing, and maybe meant to drop supplies or cargo capsules on the planet’s surface to form the genesis of a human base.
It won’t make sense to do commercial mining on Mars until well after 2032 since the planet’s gravity will impose prohibitively high launch costs for any mined ores a company is trying to export to Earth or other space colonies. It would make more sense to mine the Moon or the asteroid belt because gravity will be much weaker. Even launching stuff from Earth would probably be cheaper considering the infrastructure advantage there will be here vs. on Mars for many decades if not centuries.
The first commercial mining operation on Mars will be meant to service the Martian economy and not send anything off planet. It would only become economically justified once a significant population of humans or, more likely, intelligent machines were present on the planet. The mining operations would be focused on extracting basic materials like iron and aluminum to make mundane things like buildings and vehicles.
In 2040–only 17 years from now–a massive space ship like the Event Horizon will be built. Aside from its teleportation drive, the Event Horizon is remarkable for its sheer size: it is about a mile long, dwarfing today’s biggest surface ships and tallest buildings in length.
There’s no chance something of this scale will be built until the 22nd century. The biggest spaceship in 2040 will probably be one that is designed to transport astronauts from Earth orbit to Mars orbit. The internal area that is accessible to the human crew will be comparable in volume to a large RV or an American house.
By 2047 there will be a large space station orbiting the Earth. This is shown at the start of the movie and appears to be a general purpose space station. The rescue ship docks with it to pick up its crew before heading on to the Event Horizon. The station looks cuboidal in overall shape and consists of a scaffold structural frame studded with function-specific modules (e.g. – maneuvering thrusters, fuel tanks, crew compartments, tunnels linking modules). Its size is impossible to judge accurately, but the length of any side can be measured in hundreds of feet. The ISS is 356 long along its longest axis, so the movie space station’s size is within an order of magnitude of something that already exists.
Unfortunately, nothing approaching the size or complexity of the fictitious station will exist by 2047. The ISS, which costs billions of dollars a year to operate, is scheduled to crash back to Earth in 2031. Even if it gets a life extension to 2047, it’s highly unlikely it will be significantly expanded in size by then. No space agency or private company has credible plans to build new space stations that will be nearly as big as the ISS for the foreseeable future. Keep in mind the political decision to build the ISS was made in the mid-80s, it took another ten years for construction to start, and the station wasn’t fully assembled in space for another 15 years. 2047 is 24 years in the future, so if we expect to have something even bigger than the ISS in orbit by then, the agreement between several space agencies to start work should be getting signed about now if the ISS’ developmental timeline is any guide.
No international deal has been made, and we shouldn’t expect serious space cooperation between the U.S., China and Russia to happen anytime soon thanks to worsened diplomatic relations, so in 2047, manned ships intended for interplanetary missions will dock with space stations that are SMALLER than what we have today.
Future space ships will have weird, utilitarian designs. The Event Horizon is shaped like a…well…just look at it and decide for yourself! While I don’t think future space ships will look exactly like this, I’m sure they’ll look just as weird, but in different ways. For one, since there’s no air in space, nothing needs to be streamlined (look at satellites). A space ship’s front could be a flat slab, instead of a pointy cone like an airplane nose or an arrow like a ship’s bow. However, the minimize the risk of collision with space debris, it would still be a good idea to make space ships oblong in overall layouts, with their narrowest ends facing the direction of travel, so a gross design similarity with ships and cars would remain.
Since there’s also almost no gravity, a compact and robust layout is less important, so major sections of a space ship could be connected to each other with flimsy little tunnels or braced steel frames.
Giant arrays of solar panels dwarfing the ship like a parachute dwarfs its occupant could be common. Huge fins meant to radiate waste heat from the ship’s engine and other systems might also be present.
Ships designed for long, manned missions will probably need gravity for the health and comfort of their crews. The only way to generate it is to have the ships rotate so centrifugal force pushes people objects outwards from the ship’s central axis. Shaping the habitat module of such a ship like hollow cylinder would take maximum advantage of the artificial gravity.
Put all of these design considerations together, and you do indeed get space ships that look as weird as the Event Horizon. In 2047, the basic scenario of a weird-looking space ship docking with a space station orbiting Earth before it heads out to another planet will probably be a reality. However, both crafts will be much smaller than those shown in the film, and ship’s range will be limited to Earth’s nearest neighbors (Venus or Mars) and won’t extend to Neptune.
Future space ships will have dark, gothic interiors. The inside of the Event Horizon consists of dimly-lit, menacing rooms, and some of the walls are dark colors. Long duration space missions are already stressful enough, so there’s no way real space ships will be like this. A good deal of research goes into making spacecraft psychologically pleasant, and future space ships will, to the greatest extent practical, feel warm, comfortable, and remind humans of Earth.
However, rarely-used parts of the ship might not obey such rules. The Nostromo from the movie Alien is closer to the mark–the part of the ship where the crew sleep, eat and do recreation is light-colored, well-lit, and inviting, whereas the parts reserved for machinery and cargo storage are industrial-looking and darker.
Future astronauts will have black space suits. This makes no sense. In space there’s a gigantic black background. If you were working outside the ship, would you want to be camouflaged against that background if your tether broke loose and your crewmen had to find you? And why would a military rescue crew whose members spend most of their time going into broken-down space ships with all the interior lights disabled wear black suits? It would make it harder for them to see each other.
I can’t think of a single benefit to black space suits. White is the ideal color, which is probably why the American and Russian suits designed for extravehicular use are white.
Artificial gravity will be generated from the floors of space ships. The Event Horizon and the rescue ship both have this form of artificial gravity. As I’ve discussed in other reviews, the laws of physics don’t allow for the existence of this kind of technology, and gravity can only be simulated by spinning a space ship so the centrifugal force pushes the astronauts and objects down into the deck.
The tablet computers of 2047 will be big, chunky and will have thick frames. A tablet computer is shown in one scene, and it is clearly inferior to one from five years ago (the film was released in 1997, and the first iPad was not sold until 2010). The prediction has thus already failed. By 2047, we’ll be able to make tablets that are only a few millimeters thick and whose displays go to their edges, meaning they won’t have frames.
This raises an interesting question: If you COULD make a tablet like that, would it make sense to do so? If your tablet is almost as thin as paper, it can easily be damaged by creasing or being poked too hard by a stylus. If you make it strong like metal to resist damage and still keep it as thin as a sheet of paper, then it turns into a sharp and potentially deadly object. Excessive thinness will also make the device hard to hold and grip in some ways, and every time you pushed a button on it, the whole thing would wobble.
So even if you COULD make a tablet as thin as paper, I think you’d still want to put it in a protective case, which would give it a depth and a border frame similar to a modern iPad. Extra thickness will also mean longer battery life no matter what.
These considerations also apply to smartphones–just imagine how hard it would be if your phone were a 3″ x 5″ note card made of rigid metal.
Suspended animation technology will exist by 2047. The crewmen use suspended animation pods during the multi-month journey between Earth and Neptune. It’s vanishingly unlikely the technology will exist by then. I don’t think we’ll be able to cryonically freeze humans and revive them until the end of this century or later. A milder alternative to that process, which involves keeping a person in a deep, drugged sleep like a hibernating bear while they’re drip-fed nutrients for months, could be developed sooner, though I question whether it would be wise to use it on astronauts. Yes, it would reduce their consumption of calories and oxygen and would lower the odds of certain types of mission problems, but it could jeopardize the mission by damaging their health before reaching the destination.
In 2047, astronauts on interplanetary space missions will bide their time in transit just as the Apollo astronauts did and workers in Antarctic bases do: mostly in boredom, staring at the same four walls.
We will invent a space ship engine that can exceed the speed of light. Our current understanding of physics holds that this is impossible. It’s unwise to stake any expectations about the future on fundamental laws of science being overturned. Moreover, even if it were theoretically possible to exceed light speed, the next show-stopper will probably be finding a way to generate the impossibly high amounts of energy needed to do it.
The space ships of 2047 will still be using conventional means of propulsion, like chemical fueled rockets and ion thrusters.
Under the light speed constraint, it would literally take hundreds, perhaps thousands of years for us to colonize our nearest stars, by which time A.I.’s will be running Earth’s civilization, with obvious implications for who gets chosen for the missions. Furthermore, any future space empire we created would be impossible to hold together since it would take years for simple communications to transit between the different star systems. People and intelligent machines would take orders of magnitude longer to traverse the gulfs, so the isolation would lead to unique cultures and perhaps political identities developing in each system.
Wars with aliens at the edge of space would be very hard to deal with since the rest of our civilization wouldn’t hear about it until years after it started, by which time the situation in the warzone would have totally changed. A coordinated military response drawing upon the resources of the other star systems would be almost impossible. It would be a mess.
The space ships of 2040 will still use CDs for data storage. There’s a brief shot on the Event Horizon’s bridge where we see an astronaut removing a CD from the main computer’s disc drive. Storage discs are already obsolescent and rare to see today. By 2040, only people interested in deliberately indulging in nostalgia will use them.
That said, removable storage devices will still exist in 2040, but they won’t be rotating. Sometimes it’s more hassle than it’s worth to transfer or store data in the cloud, and it’s preferable having your data on a physical device you can put in your pocket. This is especially true for anything you want to keep private.
Astronauts will use magnetic boots. When the rescue crew first enters the Event Horizon, its gravity is not working because the power is disabled. To get around, they use magnetic boots, which stick to the metal floors. NASA developed these in the 1960s, so there’s no technological barrier to equipping astronauts with them in the 2040s. However, they’ve never been used in space because spacecraft are built of aluminum and titanium, which magnets are not attracted to. The space ships of that era will still need to be very lightweight, meaning they will still be made of non-magnetic materials, and the boots will be useless.
Moreover, walking is an inefficient way to move around in a weightless environment, as you’ll discover if you try to walk across the bottom of a swimming pool. It’s much better to aim your body at your destination and to use one or two of your limbs to push off from a nearby surface so you float towards it. There’s a scene where the rescue ship’s captain does something like that to quickly move along the outside of the Event Horizon to reach a comrade who is about to be ejected from an airlock.