How Close Are We To a Mars Mission?

destinyland writes: NASA is developing the capabilities needed to send humans to an asteroid by 2025 and Mars in the 2030s," reads the official NASA web site. But National Geographic points out that "the details haven't been announced, in large part because such a massive, long-term spending project would require the unlikely support of several successive U.S. presidents." And yet on November 4th, NASA put out a call for astronaut applications "in anticipation of returning human spaceflight launches to American soil, and in preparation for the agency's journey to Mars," and they're currently experimenting with growing food in space. And this week they not only ordered the first commercial mission to the International Space Station, but also quietly announced that they've now partnered with 22 private space companies.

The Answer:

[Pikoro]

I'm going to guess about 225 Million km. (on average)

Re:The Answer:

[dotancohen]

We could just hitch a ride on a comet that is flying close by both planets to avoid fuel costs and size of spacecraft limitations :)

At what relative velocity would you like your spacecraft to land on the comet?

I know that you are joking, but I've heard this idea proposed seriously more than once. This comment is for those people.

Re:

[swillden]

We could just hitch a ride on a comet that is flying close by both planets to avoid fuel costs and size of spacecraft limitations :)

At what relative velocity would you like your spacecraft to land on the comet? I know that you are joking, but I've heard this idea proposed seriously more than once. This comment is for those people.

See... we just need a big net and a very large bungee cord...

Re:

[dotancohen]

Would it not work if we somehow used an "bungee jump" like rope to give some acceleration to a ship?(Even if just for a brief period of time?)

It might. Divide the velocity of the comet by the maximum acceleration that you are willing to subject to your craft, that will give you the time needed for the "bungee maneuver". Multiply that time by the stretch rate of your bungee cord and that will tell you how much longer it will be after the maneuver than before. Multiply that number by the coefficient of elasticity of the cord material to tell you how long the cord needs to be.

For most real-world materials and accelerations that won't flatten the as

Re:

[dotancohen]

All you'd save is the water you could mine from the comet. Which could be significant I guess.

You could also use the comet as protection from the solar radiation, especially if its rotational axis is pointed fairly close to the sun.

Mars isn't going anywhere.

[sycodon]

We should not be in such a hurry that we are sending people in fragile tin cans reliant on chemical rockets. Instead we should be working on building an actual Ship in orbit.

What is a "Ship"? First, it is a vessel with ample power: some kind of reactor that can run all the ship's systems, plus a magnetic shield. [physicsworld.com] The other systems a reactor would power is the engines...Ion or those EM drives (should they pan out. I expect the truth should be sorted out by the time they get around to building something like this). Sure...they are low thrust, but you can have a lot of them. And they have some pretty powerful ones in development. [newscientist.com]

Another thing it would have to be is big. Room for rotating sections for artificial gravity, hydroponics, a workshop (because AAA doesn't serve Space yet). Storage for fuel, water, a lander of some sort, etc.

Sure, it sounds all futuristic, but we have the essential technologies or they are on the drawing boards, or can be with just a bit of political will. It's time we took the next step in Space Travel...the step where it's actual travel and not just joy rides to lower orbit. We can put off Mars for a decade or and instead focus on building something that is safe, reliable and not a one and done soda pop can.

Re:

[Alwin Henseler]

Along the same lines, we should establish a permanent Moon base first. The Moon is much, much, much closer to Earth than Mars, but having a permanent base there presents many of the same challenges:

Temperature extremes, radiation, micro-meteorites (common to any space mission, I suppose). Needing to lift gear much further up than a 300~400 km low orbit. Actually succeeding in landing that gear undamaged. Gravity - but lower than on Earth. Redundant and/or extremely reliable life support systems, since Ea

Re:Mars isn't going anywhere.

[dotancohen]

...many of the same challenges:

Temperature extremes, radiation, micro-meteorites (common to any space mission, I suppose). Needing to lift gear much further up than a 300~400 km low orbit. Actually succeeding in landing that gear undamaged. Gravity - but lower than on Earth. Redundant and/or extremely reliable life support systems, since Earth will be 'close' but still too far away for actual emergencies.

Not at all the same. Due to having an atmosphere, almost all those parameters are vastly different. The temperature extremes are not nearly as extreme on Mars, there is (slightly) less radiation, and almost no micro-meteorites. There is no 'landing' on Mars like with the moon, but rather EDL (Entry, Descent, Landing) as on Earth. That is actually much more difficult than landing on the moon: the atmosphere really isn't thick enough for parachuting a large mass, but too thick to light a retro rocket at high speed. I suspect that this is one of the reasons that SpaceX ignite a retrorocket on landing the Falcon 9 first stage: to practice doing so for a Mars mission. Also, Mars has twice the gravity of the moon, which will bear in ways that we don't know yet on astronaut's physiology.

Other than the "getting there" stage, Mars will be much easier to colonize than the moon. And the "getting there" challenges are surmountable with current technology, the "living there" challenges are much, much more difficult.

Re:

[taiwanjohn]

the atmosphere really is .... too thick to light a retro rocket at high speed.

SpaceX claims that their SuperDraco thrusters are capable of igniting during Mars EDL, at supersonic speeds. Of course, we won't know for sure until they actually do it, but given their accomplishments to date, I see no reason to doubt them.

Re:

[dotancohen]

SpaceX claims that their SuperDraco thrusters are capable of igniting during Mars EDL, at supersonic speeds. Of course, we won't know for sure until they actually do it, but given their accomplishments to date, I see no reason to doubt them.

Yes, SpaceX seems to be the only one researching how to do this. They've always said that their ultimate goal is Mars, and their engineering shows it.

As much as I try not to be a Linux fanboy, pro-Israel, or any other bias, I find it very difficult to not be a SpaceX fanboy!

Good argument for Moon first

[sjbe]

Other than the "getting there" stage, Mars will be much easier to colonize than the moon.

Taking what you claim as a given (the Moon being more challenging) then wouldn't that be a good argument for colonizing the Moon first? If it is actually more challenging in most ways but easier to reach then we can test bed all the technology 3 travel days away and get much of it figured out before taking the long trip to Mars. Not so much from a safety standpoint but from a logistics and cost standpoint. Testbed as much as possible in harsh conditions close to home and then you "only" have to figure ou

Re:

[Immerman]

By that logic it would have made more sense to try to get supersonic flight working before lighter-than air craft. The challenges are about as different. Consider, the moon has:
- Much more extreme temperature swings
- Razor-sharp abrasive dust that will quickly destroy seals, gaskets, and other soft materials (no weather to wear it smooth like on Earth and Mars)
- 2-week nights that make solar power nonviable without massive battery banks
- much lower gravity, making adapting Earth-based nuclear reactor desig

Go where we can to learn first

[sjbe]

By that logic it would have made more sense to try to get supersonic flight working before lighter-than air craft.

Nice reductio ad absurdem. Seriously, analogies like this almost never are relevant. And this is slashdot so please use a car analogy if you must. :-) Anyway some things about a Moon base will be harder but others will be easier, not the least of which are the logistics involved.

Much more extreme temperature swings

Which if you can handle those, the ones on Mars should be a piece of cake. Don't forget about the effects of the moon passing through the Earth's magneto-tail either. Huge charge buildups will be challenging to say the least.

- Razor-sharp abrasive dust that will quickly destroy seals, gaskets, and other soft materials (no weather to wear it smooth like on Earth and Mars)

La

Re:

[Immerman]

Sorry, couldn't think of a good car analogy - cars have been pretty much unchanged in terms of basic technology since early models switched from electric-drive to the internal combustion engine. But I think a reducto ad absurdem is entirely relevant to calling out apparently absurd claims.

Temperature: yes, if we can handle the Moon Mars will be a cakewalk. But we can *already* handle Mars, as demonstrated by the multi-year lifespans of our rovers.

Dust: nope. Mars dust has been weathered smooth, just like

Re:

[dotancohen]

Taking what you claim as a given (the Moon being more challenging) then wouldn't that be a good argument for colonizing the Moon first?

Not at all. Not only are the challenges harder, but they simply don't apply to Mars.

Re:

[Immerman]

Actually the moon is much more challenging in many respects:
- A others have noted, the temperature swings are far more extreme.
- Moon dust is razor-sharp, and will wreak havoc on air seals and other soft materials in fairly short order (Mars dust has been worn smooth by winds)
- You have to deal with that two-week night which means you need huge batteries for solar power to be viable
- Much lower gravity, which could make adapting Earth-based nuclear reactors considerably more challenging. RTGs work okay for

Re:

[vtcodger]

I'm not a big fan of man in space with current technology. But I feel compelled to point out that artificial satellites including the ISS cope with pretty much the selfsame temperature ranges that will be experienced on the moon without all that much difficulty. The longest lived active satellite seems to be Oscar-7 which has been in orbit for something like 40 years and is apparently still functional when its solar cells are in sunlight. (The battery died in 1981).

That said, what possible point is there

Re:

[Immerman]

That leaves only the challenge of creating an underground base within the few days available before the temperature swings radically.

Re:

[toddestan]

One possibility is to land in one of the "craters of eternal darkness" on the moon that never receive any sunlight and therefore will have a much more steady temperature. A bonus, it's also theorized that these craters are the most likely places one might find water on the moon, though there's currently no evidence that there's any water in them. Downside is that they are all near the poles which makes it a bit harder to get to.

Re:

[Immerman]

Fair point, though that makes solar power even more unfeasible, so we'll need to design low-gravity nuclear reactors before it's possible.

Re:

[Immerman]

Well, let's not overstate the case - if there's a pending crisis support from Earth could reach the Moon within a week or two, instead of 12-50. Plenty of situations where that might make a decisive difference. (Not that there aren't also plenty where it wouldn't)

But that and the lower launch costs are the only real advantages for a moon base. On the other hand a moon base promises much larger long-term benefits to an Earth-based space program, initially in fuel production for longer voyages, and eventual

Re:Mars isn't going anywhere.

[Rei]

All of that is vastly more impractical than the current minimalist Mars mission concepts. We can't scrounge up the funding for one of them, and you want to build something vastly larger?

Magnetic shields are good for preventing solar radiation but do little against GCR. You still need physical shielding sufficient to block GCR - which is harder to block anyway, aka, you still need significant shielding.

You - and TFA - mentioning growing crops is naive. The reason that all serious baseline approaches only call for small, experimental-level (rather than sustinance-level) crop growing is because A) that's way too much risk (starvation due to crop failure, which is tough enough to prevent here on Earth from thousands of different causes, yet alone in a radically different environment) to impose on an early mission, and B) shipping in the food to last for a typical mission duration is actually lighter than the cost of shipping in a facility large enough to grow that much food and the associated power and environmental systems required to operate it. The ability to grow crops would be important for long-term habitations (which is why NASA is researching it - although the plant growth experiment designed for the Mars 2020 lander got cut), but the first missions to Mars absolutely will not be relying on it for any relevant portion of their calories.

VASIMR is not new. One however does need to remember the downside: any high ISP /moderate to high thrust system is inherently going to be consuming vast amounts of power. And producing vast amounts of power means vast amounts of cooling area. So while it's "possible" to power a ship like this, it also means a very large ship... which partially eliminates the reason why one would want such a craft in the first place. It's more important for space "tugs"/"ferries" which take many trips, and for outer-planets missions. And note that there are many alternatives to VASIMR.

And please, you do a discredit to yourself by adding "or those EM drives".

Re:

[inasity_rules]

Galactic Cosmic Rays, for everyone else who had no clue why we needed to shield our Global Credit Rating.

Re:

[taiwanjohn]

Bub Zubrin's Mars Direct plan [wikipedia.org] is the most likely scenario, at least in the next few decades. Eventually someone will build large-scale cyclers [wikipedia.org] as you describe, but not until mining of asteroids and the moon gets underway, making materials available in space. Judging by his past statements, Elon intends to land people on Mars before that is likely to happen, which most likely means he intends to do it with the Falcon Heavy, at least for those first few 'flags & footprints' missions. If that is so, then t

Re:

[taiwanjohn]

Oops! I thought I was replying to the GP, sorry for the confusion.

Re:

[sycodon]

I imagine Rei standing next to the Wright brothers and claiming that not only will their idea not work, but that it's stupid because we have trains and ships. And besides, no engines exist that can power a plane big enough to carry more than one or two people and who would want to sit exposed to the wind, and jet engines? Fantasy, and, and.

We should do something like this because we should/would want to DO something in space, not just take pretty pictures and heat up a few handfuls of dirt. Exploiting the a

Re:

[Rei]

I imagine Rei standing next to the Wright brothers and claiming that not only will their idea not work...

Huh? Your analogy maps to me saying that rockets don't work. Is that what you actually think I was writing?

And EM Drives? When you stand in the same room as the several PhDs that are investigating and tell them to their face...

You can also find Ph.Ds investigating psychic abilities, ghosts, and so on down the line. The fact that there exist people on the planet who managed to write a doctoral thesis ab

Re:

[Rei]

Oh hey, it's my stalker from the other day.

Re:

[Kjella]

Because... why? Mars is the furthest where it makes sense to send humans and we know from the ISS that artificial gravity and growing food is overkill for trips of that length. The next viable target would be an Earth-like exoplanet somewhere 4+ light years away that your "real ship" would take many thousands of years to reach.

Re:

[jimtheowl]

Ceres is further than Mars and might be an even better target. It has the added bonus of being a smaller gravity well.

Re:

[Immerman]

What would make Ceres a better target? From what I see it would offer the worst challenges of both planetary and asteroid colonizations, and the only real advantage would be that it's easier to land on than Mars.

It's certainly an appealing long-term target for mining, but we'll probably need micro-gravity friendly nuclear reactors first - at 2.77AU solar power is essentially unviable for supporting human habitats. Mars is already getting only 43% of the insolation as Earth, Ceres is getting a paltry 13%.

Re:

[Immerman]

I agree it will likely be a rich plum once when we start mining the asteroid belt i earnest. But I don't see that happening any time soon - we've got the near-Earth asteroids to work on first, where the delta-V is comparatively tiny, minimizing the cost of mission launches as well as making returning resources to Earth orbit cheap and easy.

As for the difficulties:
- large distances/delta-V to Earth (~2.3x further than Mars at closest approach, with orbital inclination effectively increasing that even furthe

Re:

[CanadianMacFan]

While you don't need to grow vegetables on the trip to or from Mars it would be good for morale to be able to get some fresh food during the trip. On the ISS they get the chance to have some when the resupply ships arrive.

Re:

[allcoolnameswheretak]

Maybe the first step would be to build solar energy collectors at different points in orbit around the sun. Future spacecraft could then dock at these "space fuel stations" to refuel. The same should be done with communication arrays, to slowly but surely expand communication capabilities across the solar system.

Once you have the energy, and the communications then you can start thinking about interplanetary spaceships. These should probably be "manned" by remote controlled robots instead of humans though.

Re:

[Immerman]

First we'd need efficient batteries - specific impulse is king in space, and current batteries make rocket fuel look positively energy-dense. And unless EM drives or something similar pan out you'd still need reaction mass - photon drives get terrible thrust-per-joule. Ion drives are viable primarily because on-craft solar panels provide plenty of power for current-generation drives. Future high-power drives will probably need a nuclear reactor on board, and not just some anemic RTG.

Re:

[kheldan]

I totally agree with you, except for one point: wouldn't it make much more sense to build it on the Moon? Along with a permanent colony and industry/infrastructure to support such things? Seems like a better ROI than mucking about in LEO trying to bolt things together. Also, we could be testing out environmental systems for any Mars habitats or long-range ships in the process.

Re: Mars isn't going anywhere.

[JockTroll]

Look, dating the Moon is freaking hard. She's lunatic every darn month. Moreover, she's got a hidden side to her. I'll tell you, the Moon is a harsh mistress.

Re:

[murdocj]

Really. Not proud of landing on the moon? Yeah, because it's so easy and so many other countries have done it after all the technical advances that have occurred in the last 50 years.

Idiot.

Re:

[Maritz]

The radiation environment around Jupiter is incredibly harsh. Much worse than Mars. It's irrelevant as humans won't be going to either.

Re:

[Applehu Akbar]

Talk about getting ahead of ourselves...

One huge problem still

[Tablizer]

How do we guarantee we don't contaminate Mars and vice versa? The risk of bringing back a deadly disease is not zero. Suppose Mars has prions or something we have no immunity for?

I agree it's a small chance, but also a potential civilization-killing chance.

Re:

[m.alessandrini]

Probes and rovers have found no visible signs of organic substances. Anyway, I say: let's contaminate it! If we are afraid of altering even a little bit of another planet we'll never go anywhere. Let's start a massive terraforming program and make Mars habitable to a minimum, I think it's the only hope to find possible signs of past life or other important discoveries, much more than leaving it as it is.

Re:

[Anonymous Coward]

While we're undertaking the timely and expensive process of terraforming a dead planet I hope we divert a little effort into protecting the one we're currently inhabiting ;)

Re:

[bloodhawk]

most of the types of tech required for this would have just as many benefits on earth, technology wise it is a win win. The time, money and commitment costs with a uncertain return make it a difficult thing for any government to commit too though. It is a bit like war, they are horrible and expensive but when challenged sufficiently humans are capable of coming up with some pretty amazing shit, for all the pain of the 2 world wars they brought about a shit ton of innovation.

Re:

[Grishnakh]

No, we can't do that. Too many people on this planet are hell-bent on ruining it, so that's why we need to go try to terraform a dead world. It's either that or have a giant war to exterminate all the people hell-bent on ruining this planet, but that war would ruin the planet too so it's hopeless. We need to get off-world, and just make sure the crazies don't come with us.

Re:

[drinkypoo]

Anyway, I say: let's contaminate it! If we are afraid of altering even a little bit of another planet we'll never go anywhere. Let's start a massive terraforming program and make Mars habitable to a minimum

Very long term project. No reason not to delay it for one or two hundred years so we can study Mars first.

Re:

[Actually, I do RTFA]

Anyway, I say: let's contaminate it!

I'm not afraid to modify Mars, but if we have the possibility to have a germ-free world, let's figure out how to do that.

Re:

[Immerman]

Just keep in mind that 90% of the cells in your body are "germs", and you'd die almost immediately without them.

Re:

[Actually, I do RTFA]

Well, yeah, not total bacterium free. But why bring influenza, various poxes, HIV, etc.

Re:

[Immerman]

The same reason there's rats in the Americas - good luck keeping them out, they're opportunists that piggy-back on human exploration despite our best efforts. So many nasty diseases are capable of surviving in isolated pockets within the human body. Plus, there's no telling how well we or our symbiotic microbial ecosystem will fare without those attackers. In fact there's already increasing evidence that our modern relatively protected lifestyles cause all manner of long-term health problems.

Besides whic

Re:

[Actually, I do RTFA]

In fact there's already increasing evidence that our modern relatively protected lifestyles cause all manner of long-term health problems.

For auto-immune disorders, we can bring something less than wild (can enough vaccines to it? Can something easy to fight like engineered weak cold germs do it?) For the other issues, if we lose our hard-won restiance to X, but live on Mars so X never arrives, that's fine as long as quarantees are in place.

From a scientific perspective, it's true that good for us stuff

Re:

[fullmetal55]

I saw total recall,I know what we need to do. All we have to do is re-ignite the alien fusion reactor in Mars' core which will within about 30 seconds, turn the core molten, restore the magnetic field and produce a breathable atmosphere. It'll even be fast enough that if you get thrown out onto the surface, you will struggle to breath for about 30 seconds, your eyes will bulge out of your head, but as the pressure equalizes you'll be ok, and you'll have saved everyone on Mars from the grip of an evil cor

Re:

[geekmux]

How do we guarantee we don't contaminate Mars and vice versa? The risk of bringing back a deadly disease is not zero. Suppose Mars has prions or something we have no immunity for?

I agree it's a small chance, but also a potential civilization-killing chance.

Ironyite - the story of an entire civilization looking to escape it's own destruction by trying to use the intergalactic fuel mineral Ironyite.

Why do I get the feeling someone on Betelgeuse leaned over and said, "watch, here comes the funny part."

Re:One huge problem still

[cfalcon]

I wish you were modded up because you are interesting, but you are oh so wrong.

Prions are scary because they don't seem to have a solution- like Ice-9 in Cat's Cradle, they convert everything that is like them, into them, until nothing is left. But, they require full biological access- you pretty much have to eat them in order for them to be permitted access to the things that are "mostly" like themselves. In many other places, the immune system would be able to stop them (for instance, cell membranes), because they would recognizably change the surface You couldn't ruin yourself by just inhaling a prion, like you could a virus.

A virus is probably more likely as a threat, and we (maybe) understand how unlikely it would be that a virus capable of infecting humans would be on Mars.

Your post also has an interesting implication- it implies that the "Great Filter" is that a terrible anti-life thing evolves faster than defenses for it can, in most situations. It hypothesizes (whether you did or not) that life on Mars both existed, and met its end at the end of some molecular grim reaper, that we risk contaminating Earth with. I would argue that such a Grim Reaper (molecule or construct) would have reached Earth at some point already- and if not, that we would likely find such a Grim Reaper on pretty much ANY planet we looked, and were just spared for no reason. This seems unlikely (but interesting).

Finally on the "Mars contaminates us" point, it is MUCH more likely that we find something inimical to human life here on Earth- for instance, very deep in an ocean, or near the top of a mountain, or buried in ice. Do you raise your FUD Flag against such a threat? Or is it only confined to space travel? Reminder: Our species will ultimately go extinct without space travel- this is a fact!

On your other point- "we contaminate Mars"- fucking fine. There's nothing amazing on Mars right now, life-wise, and if there is, we can keep it in a tiny Mars zoo. It's totally worthless to dedicate a whole planet to whatever random bacteria Mars happens to host right now, if indeed it hosts anything. A few score petri dishes will do nicely.

Re:

[Maritz]

Yes. Space is big, there is loads of it, it's all dead apart from Earth as far as we know, who gives a fuck if we 'contaminate' things with life? Not that we will, because we have pointless wars to fight and we like dedicating the lions' share of our resources to those, but still. Mars is not some pristine paradise environment. It's a dead rock.

Contamination

[sjbe]

Space is big, there is loads of it, it's all dead apart from Earth as far as we know, who gives a fuck if we 'contaminate' things with life?

Because we have no idea if it is "all dead". The only thing we know for certain is that we haven't found life elsewhere yet. It doesn't follow that because we haven't found it yet that it cannot exist.

As for whether we should "give a fuck" I guess that's a matter of perspective but it seems rather foolish to contaminate places we have no intention of going ourselves in person. You lose the ability to study what is there if you screw it up carelessly. If we go ourselves then we WILL contaminate wherever

Re:

[Tablizer]

I would argue that such a Grim Reaper (molecule or construct) would have reached Earth at some point already...

I would also, but that's not a 100% certainty. Should we still gamble if it's a say 99.99% certainty?

Maybe the deadly stuff doesn't travel in space debris well. Mammals* don't, for example. Just because SOME microbes can survive in blasted rocks doesn't mean all do.

it is MUCH more likely that we find something inimical to human life here on Earth- for instance, very deep in an ocean

Not sure about

Re:

[Maritz]

Any martian bug would be greedily gobbled up on Earth.

We will contaminate Mars if we go

[sjbe]

How do we guarantee we don't contaminate Mars and vice versa?

We don't. If we are going there ourselves we are going to contaminate Mars. There is a non-zero chance we already have with some of the equipment we have sent there. If Mars already supports some form of life then you may as well assume it will happen the other way around unless we do nothing but one way trips. The only way to not contaminate Mars is to not go to Mars.

Will there be a profit this quarter?

[EzInKy]

Sad to say, that has become the U.S.'s battle cry. Unless an immediate short term profit can be had the funding should be put elsewhere. Let the next guy worry about investing in the future, I need my profits now!China, on the other hand, has a history of investing for long term gains. They are a much more patient people,

Re:

[phantomfive]

Oh yeah, in corporate America, profits are too important, no corporation would think ahead to landing on Mars. Oh wait, except this one. [extremetech.com] Seems there's a flaw in your understanding of America.

Re:

[Immerman]

Is SpaceX actually incorporated? I can't find anything about it one way or the other. At any rate it's a privately owned company, so it's certainly not a publicly traded corporation and thus not subjected to many of the economic forces that have contributed to the short-sightedness of the modern mega-corps.

Re:

[phantomfive]

Is SpaceX actually incorporated?

Yes

Re:

[Grishnakh]

Red herring. US companies in the 1960s did not behave remotely like they do now. Companies were much more long-term oriented back then. It's only been in the past couple of decades or so that everything's become all about the next quarter. It mostly coincided with 401(k) programs and regular people getting into the stock market in big numbers.

Also, US companies didn't invest in Apollo; they were paid by the government to build stuff for the program. The government used tax dollars to pay for it all. I

The answer is in the poll

[Psychotria]

Why is there an article as well, when the question has already been answered?

Asking the wrong question

[Required Snark]

It's not how close we are. It's how much money we're willing to spend to get there.

My guess is that absent any major change on this planet, no group or combination of groups that has enough money is willing to spend it on the trip.

So the answer is far away.

Re:

[CanadianMacFan]

It's also how much risk management and the politicians are willing to take. In the current environment (and for the past couple of decades) NASA has been very risk averse when it comes to human lives so I think that the US is quite far away from going to Mars. Not that they were ever willing to throw away lives but during the Cold War they were more open to taking risks to achieve goals.

The Russians seem to be more focused on the Moon for their manned program. I don't know about the Chinese program but w

Still far

[TheDarkMaster]

Humans are still more concerned with blow each other than exploring other planets.

Re:Still far

[Maritz]

Humans are still more concerned with blow each other than exploring other planets.

Too bad your typo isn't true. But yes. Humanity is not the space-faring species we are looking for.

Re:

[TheDarkMaster]

I wanted to say "exploding", "destroy". Google translator is a piece of shit, I will have to learn this barbaric language (English) so that everyone may understand me on the .\

Re:

[Grishnakh]

Humanity is a pleasure-seeking species of (somewhat) intelligent monkeys. It's right for us to be more interested in pleasure than in space exploration.

No, we're not. Most major religions are completely anti-sex. Oral sex has been illegal in the western world until only very recently, and it's probably still illegal in the Islamic world.

Humans are NOT pleasure-seeking. They're misery-seeking. They like to make themselves miserable, and they like to make everyone around them miserable too by creating la

How much does it cost?

[rrohbeck]

Compared to going to the Moon, and how much budget does NASA have for this compared to the early '60s, and mow much more complex is a Mars trip compared to the Moon trip? There's your answer: Never going to happen with the current amount of commitment.

Profit and robotics

[DThorne]

I'm a guy who stared up, glassy eyed (mostly because I was a kid in the middle of a serious sunstroke) as Armstrong stepped down that ladder, I had my plastic model of the Saturn V and scrapbook after scrapbook of the Apollo missions,so I guess you could call me a fan of exploration, science, engineering - all the things that had to come together for that moment to happen, but I honestly think those days are gone or at least disappearing. Two things end up driving exploration - a romantic ideal of the need to know, and the chance for someone to make a whack of cash. I think like after the "discovery" of North America, it's the investors that will drive the future of space. Nobody with any control over the sort of money this is going to cost believes that we are genuinely on the edge of destroying Earth - no "Interstellar scenario" is forthcoming - so what it will end up being is profit. Mining, most likely. As robotics advances the arguments are fewer and fewer for putting humans in harm's way. Maybe Mars will end up being on the list, my bet is the asteroid belt, though.

After nuclear engines&reactors are developed..

[KonoWatakushi]

Attempting anything at scale in space with chemical rocketry is utterly foolish. Also, even if we put people on Mars, they need a dense, compact, and reliable source of power. Nothing but nuclear engines and reactors even remotely fit the demanding requirements for long-term space activites. A molten salt reactor can be made compact enough to power an airplane [wikipedia.org], and would be suitable for use in a Mars colony, providing electricity, heat, and production of chemical fuels. The endeavor was scrapped because

Fission in space

[sjbe]

Attempting anything at scale in space with chemical rocketry is utterly foolish.

While I generally agree, we don't have anything else at present nor does there appear to be any promising replacements in the near future outside of a few corner cases. We have NOTHING else to get us out of Earth's atmosphere. Until we come up with an alternative for getting into space that is economical and has a similar safety record we're going to be using chemical rockets. While I'm hopeful we can develop something clever one day, I'm realistic that it is going to be a while. Probably longer than my

Re:

[Immerman]

Of course, getting *into* space, and getting *through* space are two very different challenges. I'll agree though that at the moment chemical rocketry seems the only viable option, though ion drives (or even EM drives if space enthusiasts are very lucky) could change that fairly rapidly, especially if we developed micro-gravity nuclear reactors to power them. Kind of chicken and egg issue there though, we're going to need a much more vibrant space industry before micro-g reactors are worth developing. St

Commercial colony on the moon first

[SkunkPussy]

Sending people to Mars is aspirational, but ridiculous. We need to find a commercial basis for a self-sustaining colony on the moon first. Once we have a self-sustaining colony on the moon, that is somehow able to support itself commercially, sending people to Mars will be more achievable.

Governments will have to go first

[sjbe]

Sending people to Mars is aspirational, but ridiculous.

Why is it ridiculous? The idea is fine though some of the notions for how to get there are a little absurd and/or optimistic.

We need to find a commercial basis for a self-sustaining colony on the moon first.

Any colony on the moon will be funded at first by governments and tax dollars. You cannot make a credible business case for going there until it has already been explored and the resources and risks have been quantified. The costs are huge, the returns unknown, and the risks are mostly unquantifiable. That is the the basis for the worst business plan ever. No profit seeking insti

Re:

[Immerman]

The moon is a radically more difficult challenge to colonize: extreme temperature swings, long sunless nights, razor-sharp dust to destroy seals and gaskets, and few ecosystem-relevant resources.

Mars by contrast has relatively mild conditions, bountiful water and CO2 to supply ecosystem growth, and relatively Earthlike gravity and diurnal cycle. Plus friendly blue skies (probably)

Re:

[Immerman]

Have you even bothered to check the temperature extremes on the moon? I said relatively mild for a reason. As for water - we're seeing evidence of it all over Mars in small quantities (enough to replace losses and gradually build up a surplus), and those ice caps which contain thousands of cubic kilometers of water ice. I'd call that pretty bountiful.

We're not close at all

[damn_registrars]

The military will soon need some new toy and all the government's money (and then some) will go to it instead. This will be the pattern for many decades to come.

Is this the Year?

[PopeRatzo]

I'm pretty sure this is the Year of Mars on the Desktop.

We're "this" close

[ITRambo]

We're still in the science fiction stage of a Mars mission. Nothing that I've seen indicates a serious effort is being made to go to Mars. I'm not sure humans should so so anyway as we're already using robotics to analyze the surface and scan from orbit.

We will never "make it" to Mars

[Thing 1]

It's a light in the sky, not a real place we can visit. Search YouTube for "Flat Earth Clues".

Re:

[Thing 1]

There's science here. Why not look into it rather than say anti-psychotic medications are necessary? (I know the answer, just curious what you think it is.)

Moon *now*, Mars *later*, damnit!

[kheldan]

We need to go back to the Moon first, set up a colony there, and build infrastructure there to support further exploration of the solar system! Why? Number One, because we can make all our inevitable mistakes a few days from Earth, where we'll have an opportunity to handle them without everyone dying, and Number Two, if there are launch facilities on the Moon, it'll be that much easier in the long run to get to places like Mars and the asteroid belt, than having to use up all the delta-v necessary to boost out of Earth's gravity well, that's why.

Re: Why is /. so infested now with...

[Anonymous Coward]

Because /. is so full of Republicans. So full of Republicans.

I...

[harvey the nerd]

..dunno, ask Elon. I think he knows better than NASA does.

Re:

[Applehu Akbar]

"Because /. is so full of Republicans. So full of Republicans."

Democrats used to do science too, remember. And they can once again.

Re:

[Dcnjoe60]

"Because /. is so full of Republicans. So full of Republicans."

Democrats used to do science too, remember. And they can once again.

Doing science and funding science are two different things. Unless they can increase their numbers in congress, it is unlikely that Democrats will be able to fund science anytime soon.

Re:

[slew]

Doing science and funding science are two different things. Unless they can increase their numbers in congress, it is unlikely that Democrats will be able to fund science anytime soon.

Actually, even if the D-party can increase their numbers in congress, it is unlikely they will *want* to fund science over their other spending priorities, meaning there is probably no hope to increase science funding anytime soon...

Well maybe if WWIII breaks out, science-development might get a boost, but probably not science-research...

The only hope is that a massive budget surplus magically appears so that in addition to giving each taxpayer a $100K annual benefit, they throw some of the extra $$ to sci

Re:

[oh_my_080980980]

Except going to Mars is propaganda and not science. No scientific value in sending man to Mars. Lots of scientific value sending probes and what not to explore the galaxy. Cheaper too.

Re: Why is /. so infested now with...

[Jhon]

"Except going to Mars is propaganda and not science. "

Actually it's both -- and more. Is the goal to JUST send robots to probe our solar system? Or to actually make a human presence? I believe the latter and I believe it's important for many reasons which should be obvious.

Re:

[Applehu Akbar]

Manned flights are no more "propaganda" than the settling of the West was. They are just not a high priority for governments. if NASA continues to produce interesting findings with its robotics, the findings will at some point cause the West to be settled.

Re:

[blue9steel]

No scientific value in sending man to Mars.

That's not true. You could argue that much of the science could be done cheaper another way, but it does have value.

Probes can't teach you about us

[sjbe]

Except going to Mars is propaganda and not science. No scientific value in sending man to Mars.

That's not true at all. We would learn a tremendous amount from sending a man to Mars. There would have to be great advances in medicine, agriculture, life support, power, shielding, and much more. Much of it would be technology we are unlikely to develop any other way. We would learn a tremendous amount by sending a man to Mars or even to the Moon.

Lots of scientific value sending probes and what not to explore the galaxy. Cheaper too.

Of course there is value in probes. But there are things you cannot learn by sending probes. That's like saying you can learn everything about Earth by using satellites and ROVs. It simply isn't true. You cannot learn anything about human physiology for one. You learn nothing about life (ours or alien) in these remote places. Probes have their value but the idea that they can completely replace sending people is absurd.

Re:

[Dcnjoe60]

I don't get why we need to send meat bags to Mars?

Because it is a way to repay powerful donors who are major shareholders of companies that are otherwise too big to fail.

Re:

[oh_my_080980980]

Pretty much. Sad when morons think space exploration is about sending people into space.

Re:

[oh_my_080980980]

This assumes there ever was a space age. There never was. There was an arms race. It ended. Human space exploration will take time, planning and money. Without a military angle to it, it won't have the funding that Mercury, Gemini, and Apollo had. Which is fine because you don't want to rush this.

Re:

[Immerman]

It's not just as deadly - in fact it's barely more deadly than Antarctica. A little colder, and you need to concentrate and pre-process the air to make it breathable (using some impossibly advanced technology such as a greenhouse).

Contrast that to oceans of liquid lead and a highly corrosive atmosphere on Venus. Even our atmospheric probes have barely survived a few days. Mars meanwhile was potentially Earthlike as recently as a few tens of millions of years ago, and there could still be much of interest