Blackberry is dead anyways. One way or the other it's going to be cannablised. Move to a platform with a future.

That is, of course, for a given radiation dose, which is independent of body cross section - which is relevant in real-world scenarios. If we assume an isotropic radiation exposure profile, an average male height of 174cm, an average female height of 161 cm, and asssume an equivalent profile, then a man presents a 17% higher profile to radiation exposurediation exposure, so if a woman has a 50% higher (150%) cancer risk, then it's only 29% higher for a fixed radiation flux per square meter.

However, let's look further at this. Given the smaller size of members of a female crew, you can shrink the spacecraft occupant space by 8% on each axis, or a volumetric decrease of 26%. Mass changes are more difficult to reckon. Life support, food, water, etc is dependent on metabolism, which the article shows is dramatically lower for women in space. Fuel needs are proportional to all other mass issues. Only a few things (such as computers and scientific equipment) don't trace back to crew member size and mass. Regardless, for a given launch weight, it's clear that you can afford the mass of a significantly increased amount of radiation shielding for a female crew due to the weight savings elsewhere, probably easily more than offsetting the cancer risk.

Beyond this, the average US astronaut age is 34, an age well after when most women are done having children (assuming that they even want to have children). Given that the article states the risk is from breast, ovarian, and utirine cancer, I wouldn't be surprised if many would consider full hysterectomy for the ability to travel to Mars.

I love the fact that Mars is the only planet known to man that is solely inhabited by robots

Despite how radical that statement sounds, it's actually perfectly reasonable for a zero-G environment. They're not only dead weight, they're also in the way and make you require larger accomodations.

Even in Mars's gravity field a legless person would deal quite well, at least inside the facility (picture how easily you could get around without your legs if you suddenly were given 2.5x the arm strength, didn't have your legs weighing you down, and on top of that add in how most double amputees already have good arm strength to begin with). They should be able to "hop" with their arms all the way to a 2 1/2 meter ceiling without trouble, and the full arc would take a good two seconds to come back down. On the moon it'd be even easier. Of course, if they're legless, why would they even need such tall ceilings to begin with?

Citation so we know what you're talking about?

I agree. If by "poisoning" they mean people making insolts or dispatching flying penises in Second Life or stuff like that, then it's a bill too far. But if by "poisoning" they mean launching flickering images on an epilepsy forum to try to cause seizures, "doxxing", making legitimate rape and murder threats, etc, then I think it's absolutely justified. All too often is there the assumption that what happens online doesn't warrant enforcement, even if it's something that crosses over into the real world.

Everyone has the right to free speech, but it ceases being free speech when it crosses certain bounds (shouting fire in a crowded theatre, incitement to violence, solicitation of criminal activity, etc). All of these cases are nuanced and require careful balance, but what they should not be is ignored.

Exactly what I'm thinking. I respect peer-reviewed research, and take results seriously - preferably consensus positions, but on lesser researched topics, individual studies. But isn't this pretty useless without more details? Is it sugar consumption? Then diet soda doesn't count. Is it phosphate consumption? Then are all kinds of other foods also a threat? Is it caffeine? If so, then coffee is a threat and caffeine-free soda is fine. Is it other lesser ingredients, such as certain flavorants or colorants? What element in their test soda is so harmful that it has such a dramatic effect? Surely it's not all ingredients, or the act of consuming them at once...

Wrong. I said mass manufacture - you don't have to re-engineer curiosity from scratch and hand-build it every time. And if you can pay to build a super-heavy-lift vehicle, or tons of smaller (but still very large) launches to get your ~100 tonne manned Mars round trip spacecraft into orbit, then you can launch a 100x 889kg curiosity rovers.

You literally can launch about 100 mass-manufactured curiosity-sized rovers for the cost of one manned mission. The scientific bang for your buck is way, way, way higher with robots.

And FYI, if your goal is to be able to help people "live on another planet", then you absolutely should not be supporting wasting money on a trip to Mars on today's way overpriced launch systems. You should be supporting spending it on developing novel systems for orders-of-magnitude reduction of launch prices, be they scramjets, launch loops, coilguns, metastable fuels, nuclear thermal propulsion, or in general insert-your-favorite-potential-cost-reducer-here, so that it doesn't cost an impractical amount of money to send people there. (never mind that we're not even centuries away from being able to recreate a full self-sustainable tech tree on Mars.. see earlier in the thread)

I always find it funny to hear people the same alt-space fanboys complaining vitriolically about how maintaining ISS is a huge waste of money but then insisting that we set up a manned outpost that would cost orders of magnitude more to maintain ;)

What "all purpose robot"? A robot or person's capabilities are limited by what scientific equipment they have on hand, not by whether they can digest corn or catch a cold. I'm talking about a robot like Curiosity. A person could mass-manufacture and dispatch a hundred Curiosity rovers to every corner of Mars for the cost of one manned mission and would collect dozens of times more data.

Ref. It took 30 seconds. Please don't ask other people to use Google for you, you're (presumedly) an adult and should be able to manage these sort of things on your own.

But in order to avoid thermalizing your fission fragments the reaction is going to need to be in near-vacuum

The reaction is done in a near vacuum. But that doesn't mean that there's almost no fuel. Fission fragments and neutrons behave totally differently, fission fragments are positively charged and respect Lorenz force, neutrons are neutral and do not, so it's easy to separate the two (as well as from the fuel, which becomes negatively charged and is not moving at relativistic velocities).

These things have been fully simulated, there's nothing unreasonable about them.

but our best neutron mirrors can only get total reflectance at angles of incidence of less than a single degree

I have no clue where this is coming from. Neutron reflectors (more properly thought of as scatterers) can scatter back, and in fact moderators produce a relatively anisotropic thermal neutron flux. The current proposal for a dusty fission fragment reactor involves U235 fuel and a moderator in the shell of the reactor.

Oh please, be serious. It's humans running the robots who make the decisions. The only benefit a human on Mars has is latency. But that's a really silly benefit, given that there's no urgency to get the data and just travel there takes months and the limiting factor on how much data you'll collect overall is how long your scientific equipment lasts. And no, an astronaut on Mars isn't going to be repairing a broken mass spectrometer or the like, it's a silly concept. And it'd, as noted, be orders of magnitude cheaper just to send a second robot.

I am correct, look it up if you don't believe me. The energy is primarily in the form of fission fragments. And no, chain reactions work exactly the same, the neutronicity doesn't vary. You're confusing fission fragments and neutrons.

I don't have anything backwards. As far as solar sails go, interplanetary travel is short distance.

The thrust is really, really, really tiny, for really, really, really huge sails.

You can encrypt text files as well.

And how exactly would a binary log be any more secure even in that regard? You can have binary streams in stdio as well.