Really it’s all the primes and sub contractors. NASA is more like a management layer. The difference between this and what commercial space companies do comes down to who’s paying and what’s the penalty for poor performance.
Not much motivation to get things done in a timely manner with cost-plus programs.
Out of curiosity, why do you see this as a worthwhile endeavor?
My personal perspective is that the resources are better used for other purposes, but it's possible that I just haven't encountered some compelling reason yet.
Do you watch sports, football, the Olympics? If not I'm sure you know someone who does. Same category as this. Each of the 32 NFL team is worth about the cost of 1-2 Artemis launches. The entire league could fund the whole Artemis program nearly twice. Hosting the Olympics is worth about 3-10 launches.
Like sports, the objective is ultimately useless except as a showcase of what humanity has to offer, and people like to see that.
I think in general space exploration is a great use of taxpayer money, but the artemis program doesn't seem great from either a "science per dollar" or "novel accomplishment per dollar" standpoint.
If the goal was just to flex on the rest of the world I would've much rather we focused on going somewhere new or returning to the moon in a more sustainable way
Each Artemis launch costs something like $4b (that's the incremental cost of a new rocket, it's much higher if you amortize the design costs).
IMO the program is not optimized for cost or sustainability, it's optimized for creating jobs in various congressional districts. Of course that provides a certain amount of political sustainability to the so-called Senate Launch System.
I just don't see a future where NASA can afford multiple SLS launches per year to maintain a continuous Lunar presence
I think that is the point, but whether this mission will actually do that is rather unconvincing.
After (and if) Artemis III lands on the moon and brings home the astronauts there seems to be very little planned on how we actually get to the moon base which NASA is claiming this will lead to, let alone the manned Mars mission that is also supposed to follow.
In other words, I think NASA is greatly exaggerating, and possibly lying, about the utility of this mission.
> there seems to be very little planned on how we actually get to the moon base
There is a lot of research going into in situ construction methods and even nuclear power plants on the moon [1]. (Which would be necessary to bootstrap eventual indigenous panel production [2].)
To me it’s encouraging to see this fundamental work being attacked than an endless sea of renderings. The reason you aren’t seeing heavy detailing, despite construction slated to begin with Artemis V, is we’re waiting for the launch vehicles. (“Any exploration program which "just happens" to include a new launch vehicle is, de facto, a launch vehicle program” [3].)
> This effort ensures the United States leads the world in space exploration and commerce.
> “History shows that when American science and innovation come together, from the Manhattan Project to the Apollo Mission, our nation leads the world to reach new frontiers once thought impossible,”
> Under President Trump’s national space policy
I smell politics and American exceptionalism, not science. There are a lot of could-bes in these statements as well, I have serious suspicions that these goals are not serious engineering. I am 99.999% certain that NASA will not build a nuclear reactor on the moon this decade, nor even the next decade. NASA is not giving me any signals they are capable of that.
> I am 99.999% certain that NASA will not build a nuclear reactor on the moon this decade, nor even the next decade. NASA is not giving me any signals they are capable of that
You don’t think NASA and the DOE, together with Lockheed and Westinghouse, can build a reactor? Why? The major technical issues were largely de-risked with the 2022 solicitation.
Even if you think Space travel is worth the money (which I personally do), adding humans to the mix makes projects incredibly more expensive. Even in the realm of space travel and research, sending humans is a questionable use of the money.
The most important (if not entertaining) things you can do in space don't involve humans. Telescopes, communications, earth observation, sending probes to distant bodies, etc.
It's nice that we can send humans to space and it's good to keep that capability going so that the knowledge doesn't die. But the unmanned missions tend to pull the weight of actually accomplishing useful things. Humans just get in the way.
I think there is a major difference though. Sports events are not pretending to be anything else. The Artemis mission claims to be advancing science and claims to be a stepping stone for an eventual moon base and a manned mission to Mars. I personally have serious questions about all of these.
The fact that we hope to get some new tech with this whereas sports aims for nothing is just icing on the cake. I think big space missions are worth it every now and then on a humanitarian level; even if no new discoveries are made, a new generation of engineers will become fluent in what we have already discovered. Humanity's education is not "done" when the last fact is written in a book, it needs to be constantly refreshed or it will disappear.
Even in sports you do not get "nothing", it has certainty helped advance the field of medicine.
> a new generation of engineers will become fluent in what we have already discovered.
We seem to have lost the technology of going to the moon we gained from Apollo. So without an actual follow-up and a tangible long term plan I suspect the exact same will happen this time around.
Or, more likely, it is an indication that manned moon missions are simply not that important, that this technology is simply not worth the cost of maintaining.
In contrast, we kept the technology of doing robotic missions in space, on the moon, and even on other planets and even asteroids (the latter two have much to improve upon though).
Do you really disagree that it’s advancing science? Surely actually testing hardware, building knowledge on how to run this type of mission, learning to use lunar resources, figuring out how to keep people alive, etc. will teach us things we couldn’t learn any other way.
Fwiw do share your concerns about the methods (sending humans on this specific mission is questionable, SLS is questionable compared to SpaceX approach).
It's not science, it's engineering. I don't think it's advancing science in a way that wouldn't be possible with a fraction of the cost without sending humans there.
Do you think we will learn more from Artemis or the Asteroid Redirect Mission? Because that's a concrete example of how funding this mission caused other experiments to be cancelled.
Fair point, but that’s an argument about prioritization within NASA’s budget (and its size relative to other spending), not the scientific value of the mission.
There's never non-zero value to any challenging engineering problem. The question is whether the finite resources spent to solve it are best spent on it versus other projects.
And in this mission in particular, you can't divorce science from politics. NASA's budget was reined in by Trump 45 and his admin picked Artemis because a manned mission to the moon invokes a particular feeling and memory, not because it benefits science. The moon is a known quantity, and going there is not more valuable than the other projects the government could have spent $100 billion on.
Keep in mind, this is one of the most expensive single launches in history while there is a partial government shutdown and the rest of the federal government that does real research has been gutted by this same administration. So it's tough to talk about "scientific value" when it's obvious that this mission is doing little science at the same time the government has decreed it won't be in the business of paying for science.
The moon isn’t a known quantity, we sent a handful of people there for a combined few days half a century ago. There’s immense scientific and engineering value in keeping a generation of engineers fluent in deep space operations.
If you’re angry about this dumpster fire of an administration wasting money and gutting research (I am too), the answer is to fight for better funding across the board, not to tear down one of the few ambitious programs left that’s actually pushing the boundaries on what we can do. NASA’s budget amounts to a rounding error and isn’t zero sum with the rest of federal science funding, these are separate appropriations.
Mars pushes the frontier (even if no one might survive the trip due to human body deteriorating), going around the Moon is meh - we were there ~57 years ago multiple times so what's the point?
Whether a moon base is needed or even beneficial is a question I have not heard a convincing answer in favor. And even if moon base is indeed needed and/or beneficial to future space exploration / resource extraction why robots cannot more efficiently build (or assemble) such a moon base is another question I need an answer to.
We are sending humans to (or around) the moon now, but it may just turn out to be a wasted effort, done solely for the opulence (or more cynically bragging rights / nationalist propaganda).
> Whether a moon base is needed or even beneficial is a question I have not heard a convincing answer in favor
If we want to go to Mars, the Moon is a good place to learn. Simple things like how to do trauma medicine in low g; how to accommodate a variety of human shapes, sizes and fitness levels; how to do in situ manufacturing; all the way to more-speculative science like how to gestate a mammal. These are easier to do on the Moon than Mars. And the data are more meaningful than simulating it in LEO. If we get ISRU going, doing it on the Moon should actually be cheaper.
If we don’t want to colonize space, the Moon is mostly a vanity mission. That said, the forcing function of developing semi-closed ecologies almost certainly has sustainability side effects on the ground.
I think I mostly agree with the other comment by runarberg—Earth is the place to be. But it is also worth noting that even if we do end up colonizing space, Mars is still really pointless. Mars is not significantly more habitable than orbit.
There’s some gravity: the wrong amount. In space, you can at least get 1G with centripetal force.
In orbit, you are halfway to anywhere. On Mars, you’ve gone back down the well. Make sure to bring enough gas to get out again…
Mars is just a bunch of irradiated rocks. Bring your own ecosystem, and wait a couple thousand years while it installs.
The only thing Mars has going for it is that it’s really far away, so we can still pretend to entertain sci-fi plans about colonizing it. The practical next step for space colonies would be large investments in additional space stations, a step so imminently possible that the only way to take it seriously would be to do it.
> Earth is the place to be. But it is also worth noting that even if we do end up colonizing space, Mars is still really pointless. Mars is not significantly more habitable than orbit
I’m not pitching a specific destination. And I’m not pitching exploration to the masses. Most people on the planet never have and never will leave their home country.
If we want to go to space, we probably want a lunar base.
> There’s some gravity: the wrong amount. In space, you can at least get 1G with centripetal force
Maybe this is important. Maybe it’s not. We need physiological experiments.
> In orbit, you are halfway to anywhere. On Mars, you’ve gone back down the well
In orbit you’re perpetually nowhere. On a surface you have in situ resources.
> Mars is just a bunch of irradiated rocks. Bring your own ecosystem, and wait a couple thousand years while it installs
Maybe it’s age. Maybe it’s moving from New York to Wyoming. Maybe those are the same thing. But I’m more of a red Mars advocate today than I was when I read Robinson’s trilogy in my twenties.
> only thing Mars has going for it is that it’s really far away, so we can still pretend to entertain sci-fi plans about colonizing it
It’s mass and an atmosphere. That’s a lot to what Earth has going for us.
> practical next step for space colonies would be large investments in additional space stations
Practical next steps are lots of experiments in centrifuges and micro and low gravity. To fund and focus that you need a goal.
We don‘t want to colonize space. Colonizing space is science fiction, not a serious goal for humanity, and certainly not an engineering challenge. There is no reason for humans to live anywhere other then on Earth. We have more reasons to live on Antarctica or the deep ocean then on the Moon, Mars or Alpha Centauri.
What I really want is for us to send a lander and a launcher to Mars capable of returning to earth the the capsules Perseverance has been collecting. I would love for geologists on earth to examine Mars rock under a microscope. I would want them to take detailed pictures of an exoplanet using the Sun as a gravitational lens. And I would love it if they could send probes to Alpha Proxima using solar sails to get there within a couple of decades.
None of these would benefit from having a moon base. In fact this moon base seems to be diverting funds away from missions with more chance of success and more scientific value.
I do. Plenty of people do. Plenty of people also think exoplanet science is useless. I disagree with them. It the arguments are symmetric to those against human spaceflight.
> certainly not an engineering challenge
…how? We don’t have the technology to do this.
> There is no reason for humans to live anywhere other then on Earth. We have more reasons to live on Antarctica or the deep ocean then on the Moon, Mars or Alpha Centauri
> None of these would benefit from having a moon base
Of course it does. ISRU (and baseload launch demand) decreases costs of access to deep space.
> diverting funds away from missions with more chance of success and more scientific value
The science slakes our curiosity. The engineering slakes our needs. And they both benefit from each other. Claiming Starship and in-orbit refueling won’t benefit scientific missions is myopic.
We are nowhere near the capability to launch robots to the moon that can autonomously build or assemble a moon base for any useful definition of moon base.
> We are sending humans to (or around) the moon now, but it may just turn out to be a wasted effort, done solely for the opulence
My 4 year old is extremely excited to watch the launch tonight because it’s manned. I’d say a few billion is worth it if all it does is inspire a new generation of astronauts, engineers, and scientists.
And neither are we anywhere near the capability to lunch construction workers to the moon which can build or assemble an equivalent moon base with their human labor. So this answer does not satisfy me one bit.
> inspire a new generation of astronauts, engineers, and scientists
This is a good point. And I would like it to be true. However when you have to lie about (or exaggerate) the scientific value of the mission, that is not exactly inspiring is it. Your 4 year old could be equally inspired by the amazing photos James Webb has given us, and unlike Artemis, James Webb is providing us with unique data which is inspiring all sorts of new science.
> And neither are we anywhere near the capability to lunch construction workers to the moon which can build or assemble an equivalent moon base with their human labor. So this answer does not satisfy me one bit.
We have the capability to do that. We don’t have the will to do it, but we have the technology. We don’t even have autonomous robots that are capable of building a moon base on earth.
> Your 4 year old could be equally inspired by the amazing photos James Webb has given us, and unlike Artemis, James Webb is providing us with unique data which is inspiring all sorts of new science.
He’s not though. People gather around as a family and watch manned space missions. It’s exciting in a way that a telescope or a probe isn’t.
Indeed, in 1969, as a small child, I watched the Moon landing together with my parents, in Europe, like also the following missions, in the next years.
They have certainly contributed to my formation as a future engineer.
The key here is “could be”. But most four (or in my case, six) year olds can’t really grasp the abstract concepts of what JWST is or the data it’s sending back. For that matter most 40 year olds can’t.
A manned mission on the other hand is tangible in a way a probe isn’t. “See the big round thing in the night sky? There are four people going around it in a spacecraft”.
It isn’t a _complete_ argument in favour of manned missions- that has to account for the risk of the endeavour and reward of the science potential of having people there to react in ways robots can’t. But it’s hard to pretend that the inspiration pretty much everyone feels when they see manned missions is somehow achievable purely by robotic ones.
> neither are we anywhere near the capability to lunch construction workers to the moon which can build or assemble an equivalent moon base with their human labor
Why do you say this? What is the bottleneck you feel we are more than half a decade from?
The moon has about the same make up as the Earth when it comes to distribution of elements in the crust. If it's anywhere near 8% like Earth then it makes sense to mine aluminum and other metals on the moon in order to build megastructures in orbit. Since the moon has no atmosphere you can accelerate things using mechanical mass drivers. Basically rail systems. At 5,300 mph you hit escape velocity and can then move payload somewhere with no rockets. It would keep us from polluting Earth too. This is the precursor to O'Neil cylinder type structures. AI robots will probably be the play but you still want a transportation system that works and frankly building a landing zone would improve overall outcomes regardless.
The rocks at the surface of the Moon are richer in metals than the crust of the Earth. They are especially richer in iron and titanium.
Without oxidizing air, it is easier to extract metals from the Moon rocks.
There is little doubt that it would be possible to build big spaceships on the Moon.
However, what is missing on the Moon is fuel. For interplanetary spacecraft, nuclear reactors would be preferable anyway, which could be assembled there from parts shipped from Earth, but for propulsion those still need a large amount of some working gas,to be heated and ejected.
It remains to be seen if there is any useful amount of water at the poles, but I doubt that there is enough for a long term exploitation.
I imagine a foundry would use solar power and lasers to heat up the material. No atmosphere means less heat energy wasted. My thinking has been how to get enough actual build material to build something like an O'Neill cylinder. Well you'd need really thick metal plates. And then you'd want to get them into orbit without rockets. And these stations would likely be at the same orbit as Earth or nearby. Mainly because of how much sun energy you get around here. Going out to the outer solar system is a different beast all together.
This argument comes up a lot, about whether a space program is “worth it” in some sense. One problem I’ve found is that these discussions often treat this in the abstract. And then we get into the nature of human endeavor, the economic benefits of that R&D, etc.
Let’s talk about this in terms of practicalities. The NASA budget for 2026, per Wikipedia, is $24.4B. I often find it hard to really reason about the size of federal budgets, and the impact on tax payers, but I have a thought experiment that I think helps put it into perspective. Suppose we decided to pay for the NASA budget with a new tax, just for funding NASA. And we did that in the simplest (and most unfair) possible way: a flat rate. Every working adult in the US has to pay some fixed monthly rate (so excluding children and retirees). Again, per Wikipedia, that’s around 170M people. Take the NASA budget, divide by 170M, and you get … $11.96/month.
Obviously, there’s lots of flaws in this. That’s not we pay for NASA, we have income tax as a percentage with different tax brackets. But it is a helpful way to frame how much a country is spending, normalized by population. And I think it puts a lot of things in perspective. $11.96/month is comparable to a streaming service. And we talk a lot about whether NASAs budget is better used for other purposes, but we don’t do the same thing for a streaming service.
Hell, look at US consumer spending: https://www.bls.gov/news.release/cesan.nr0.htm (note that that spending is in dollars per “consumer unit,” which is I think is equivalent to an adult US worker, but there might be some caveats). Based on that, the average US consumer spends around $26.17/month on “tobacco products and smoking supplies”. I just feel it’s a little silly to worry about the NASA budget when the US consumer spends twice that on what is objectively a luxury good. At least NASA won’t give you cancer.
> And we talk a lot about whether NASAs budget is better used for other purposes, but we don’t do the same thing for a streaming service.
Actually, we do. I just cancelled two of mine in the last hour, and I know many people who are serial join/cancel subscribers because they "talk a lot about whether the [monthly fee] is better used for other purposes".
NASA isn't expensive. The science parts and the job creation parts almost certainly return a significant economic multiplier. The spend is very good value for around 0.5% of the federal budget.
That doesn't mean Moon shots are the best possible use of that budget. There are strong arguments for creating more space stations first, and then using them as staging for other projects.
Mars and the Moon are ridiculously hostile environments. Hollywood (and Elon Musk) have sold a fantasy of land-unpack-build. There aren't enough words to describe how utterly unrealistic that is.
Current strategy is muddled, because it contains elements of patriotic Cold War PR fumes, contractor pork, and more than a hint of covert militarisation. Science and engineering are buried somewhere in the middle of that.
I would like to watch a new Moon landing, but in my opinion more useful would be to build a space station with artificial gravity.
At some point it may become cheaper to build a spacecraft on the Moon and launch it in interplanetary missions than to do it from Earth. It might also be useful to build some bigger telescopes on the Moon than it is practical to launch from Earth, because due to the pollution of the sky extraterrestrial telescopes become more and more necessary.
Despite the fact that there may be some uses for bases on the Moon, it is likely that those bases should be mostly automated and humans should stay in such bases only for a limited time, much like staying on the ISS. The reason is that it is very likely that the gravity of the Moon is still too low to avoid health deterioration. According to the experiments done on mice in the ISS, two thirds of the terrestrial gravity were required to avoid health issues and one third of the terrestrial gravity provided a partial mitigation.
So even the gravity of Mars is only barely enough to avoid the more severe health problems, but not sufficient.
For long term missions, there is no real alternative to the use of a rotating space station, to ensure adequate gravity.
While with underground bases on Moon or on Mars it would be much easier to provide radiation protection, there remains the problem of insufficient gravity. It may be necessary to also build a rotating underground base, at least for a part where humans spend most of the time.
That’s a very fair point. Frankly I don’t know enough about the Artemis mission and general path, and would like to learn more. I’m certainly open to the argument that NASA’s budget isn’t properly allocated to the right priorities. I was responding just to the classic argument of “why spend money on NASA when we could be spending on …”
> Out of curiosity, why do you see this as a worthwhile endeavor?
to me it's inspiring and gives people something to cheer for. It also keeps a lot of people employed, productive, and at least has the possibility for new innovation. When looking at the mountains and mountains of wasted taxpayer dollars I dislike these the least.
The moonshot is a halo program that, when executed in a non-profit form, ends up benefiting society as a whole due to smart people being cornered and forced to solve hard problems that typically have applicability elsewhere on Earth.
Edit: remember the Kennedy speech — We choose to go to the moon not because it is easy, but because we thought it would be easy.
That remains to be seen. By giving Musk the prominence to set up DOGE and destroy USAID, they've indirectly led to the deaths of almost a million people.
By launching starlink, they're also increasing the amount of aluminum in the upper atmosphere, which may have catastrophic effects on the ozone layer.
The problem is the amount of aluminum. Government non-profit spacecraft do not use very much aluminum, because they don't launch thousands of LEO satellites per year. By building the first megaconstellation and kicking off competition, SpaceX is exposing humanity to different risks, namely ozone depletion and new mechanisms of climate change:
You seem to be saying that non-profit entities are incapable of killing people? Or that it's fine if non-profit entities do kill people?
> Besides, why can't other non-profit governments pick up the aid?
I think you're being obtuse. An analogy: "Sure I turned off the circuit breaker that was powering the life support machines, but why couldn't someone else bring in a UPS and plug them in to that?"
To your last point, because DOGE shut down programs in a such a way as to make that impossible, to the point they chose to let food rot, let medicines go bad, and stranded Americans overseas working on the projects without a way home.
That's debatable. Musk bought his way into politics and shut down USAID very specifically because USAID was investigating him [1]. Oh, and he used his position in DOGE to assist in making sure that government contracts went to his companies, or licensing out his SpaceX workers when his idiocy led to a shortage of air traffic controllers [2], which was very obviously a publicity stunt if nothing else.
So it's a product that was bought and used to enrich a single person. Sure seems like a for-profit to me, at least in this administration.
Specific innovations tend to be protected via IP when they are developed privately and, as a result, “butterfly effect” developments in a completely different field from cross-pollination are less likely to occur later down the line.
Maybe ... depends on the net net ... some people have internet access and can throw some satellites into space ... on the other hand, wealth and influence accrues to a specific kind of destabilising wanker
Because humans are destined to colonize space, and this is just an early step in a journey that will take hundreds or thousands of years.
More importantly, challenges like space exploration help drive knowledge and our economy; and are critical for national prestigue.
(And, most people don't focus on this, space exploration is a way for the US to demonstrate its military technology in a non-antagonistic way. There's a lot of overlap in space exploration technology and miliary technology.)
It is great to advance of what is humanly possible. Sending a robot? Great! Good data. If it dies, who cares, it does not live anyway. All abstract.
But sending a human? That feels more real. If we have the power to go alive to the moon, we also have the power to go even further. And we lost it, now we are reclaiming it.
And it doesn't matter to me what I think of the US government - this is progress for all of humanity. Also the comment section on the youtube stream is interesting - lot's of different flags are posted, sending good wishes from all around the world, low effort comments otherwise of course, but largely positive. (Very rare I think)
So, more rockets into space please and less on earth.
> My personal perspective is that the resources are better used for other purposes, but it's possible that I just haven't encountered some compelling reason yet.
Well, people are often obsessed with rationality, and seek reasons to do something, but there is one reason that works almost for anything: just because. If we want to go forward, we'd better try a lot of things, including those that do not look very promising. We don't know the future, the only way to uncover it is to try. Did you hear about gradient descent? It is an algo for finding local maxima and to do its work it needs to calculate partial derivatives to choose where to go next. In reality doing things and measuring things are sometimes indistinguishable. So society would better try to move in all directions at once.
A lot of people believe that to fly to the Moon is a good idea. Maybe they believe it due to emotional reasons, but it is good enough for me, because it allows to concentrate enough resources to do it.
> the resources are better used for other purposes
It is much better use for $$$ than the war with Iran. I believe that the war have eaten more then Artemis already, and... Voltaire said "perfect is an enemy of good". The Moon maybe not the perfect way to use resources, but it is good at least.
I want humanity to continue to be explorers. The Moon is a good next thing, then asteroid mining, humans on Mars and Venus, and eventually colonizing the Milky Way.
Because one day, far far in the future, the humanity would reach out to the stars, and these are the first tiny steps to enable this. There's always the question of directing the resources, and this program is not that expensive, really - around $100bn. Given that fraud at COVID time alone is estimated to have cost the Treasury twice as much, seems like a worthy investment into the future.
It's quite telling that all the replies you're getting are about "hope" and "jobs" with no actual scientific reason. I guess we're taxing people for vanity space missions and jobs programs. Makes sense.
Because it is good for humans to have a thing to do. Not sure why this is not considered a valid reason. A lot of these 'it would be better to do X' assumes everyone has the same psychological profile as you. They don't. Many people are driven to explore and would go mad otherwise.
Man I’m tired of people only caring about money when it comes to space. Meanwhile they lose their shit when someone suggests that tax payers shouldn’t pay for people’s Coca-Cola.
I do much better with things to look forward to, or when I have a feeling that progress can be made. An interesting movie coming out, new music coming out. Or even better reminding me what humans are capable of above just grinding to get by or grinding to exploit others. Haven't been many moments of feeling progress lately.
Hopefully, in a few years we will figure out that hydrogen rockets can not reliably launch on time and we'll switch to less leaky fuels. Then maybe we won't need to pull 40 year old engines out of museums to dump in the ocean.
I'm all for human spaceflight, but the Senate Launch System seems the best argument for shutting down human spaceflight programs.
Well, we should have figured that out with the STS. That's what the STS was for - figuring out what technologies made for inexpensive, rapid spaceflight and which technologies don't.
Then the senate mandates the new rocket to use specifically the most expensive, problematic, least reliable technology. Completely designed to fail.
But they need to convince the people that it's worth the money, and the people are more excited when humans risk their lives, even if it is for nothing.
AFAIK they are just cutting the engines off some seconds before they would achieve full orbit, and they have already demonstrated deorbut burns. So I don't think a proper orbit will be a big hurdle for SpaceX.
Meta has very recently had leaks of an upcoming lightweight headset. So maybe not a Quest 4 as a direct successor to the Quest 3, but a new headset is in the works.
Rumor is it that the focus of this new headset is AR. Not VR.
So once again they're making a stupid business decision based on wishful thinking.
Exec 1: "Surely, people will want to wear this headset all day while they work! Because the only reason why anyone would NOT want to do that is the weight of the thing!"
Exec 2: "Exactly! Gaming makes us a lot of money—and it's the only reason anyone ever bought our VR headsets—but imagine how much more money we could be making from business customers/apps that currently have no need for such devices. If we build it, they will come though! Can there be any doubt?"
Exec 3: "Not to mention that the data we collect from gamers has almost no value! We need to be collecting intimate details about everyone's lives, not their best Beat Saber scores!"
Exec 4: "You know what? Let's get rid of the controllers entirely. Sure, they're absolutely 100% necessary for decent gaming but I seriously doubt the business applications of AR that we're pretending is a $100 billion market won't need it."
Exec 5: "I'm concerned that end users will be able to do what they want with OUR devices that we're so graciously selling them the privilege to use. We need to ensure they're NOT at all like generic PCs that allow anyone and everyone to run whatever software they want and attach 3rd party hardware. It's not like such capabilities of general purpose hardware were what set off the PC revolution or anything!"
I know a few folks with the raybans and they really like it. I do not understand why you would want an untrustworthy brand in your life in that fashion, but if they go to the in between I can see it taking off.
I don't think that's entirely it, they don't want the product facebook is selling. VR Chat is massively more popular than Facebooks offerings.
Though Facebook had impossible goals, they didn't want to make a gaming device, they wanted to make the next smartphone, that everyday people and office workers would use. Which was just unrealistic.
VRChat is just plain better. It doesn't look like a Nintendo 64 game and it doesn't have the rubber tile children-first moderation constantly looking over your shoulder. It's more gritty like adults want.
reply