I think it's important to ask questions because there's been literally "dozens" of different things "definitively linked" with CCD. The public likes to seize on neonicotinoids, but they're probably one of the least supported of these many different "definitively linked" reasons. Whole countries have gone so far as to outright ban neonicotinoids, with no effect on CCD. France, for example, banned them. The next year they largely switched to blaming the condition on Asian Hornets when the decline rates didn't decrease.
The problem is that when you ban a certain pesticide, people start using others. And going from neonicotinoids to organophosphates is a massive step backwards in terms of general safety, not just to pollinators, but especially to more complex animals as well. But the biggest problem with the neonicotinoid theory is that neonicotinoids are only used in a small fraction of the areas where CCD exists. Bees can only fly several kilometers from the hive, they're not going cross-country and picking up every pesticide in every farmer's arsenal. It even exists among people who are in places where no pesticides at all are used.
It's easy for the general public to latch onto a particular cause. But once you learn more about beekeeping you realize how incredibly much out there is that can utterly f* up a hive. And which have in history regularly collapsed bee populations, far worse than the collapses we have today. Trachael mites once nearly obliterated beekeeping in Europe, saved mainly by the development of the Buckfast bee. Check out this very inexhaustive list of bee pests and diseases. There's even some really counterintuitive effects in that small levels of some pesticides can actually increase hive survival rates, in that they're deadlier to bee pests like mites than to the bees themselves.
The public also tends to totally understand colony collapse disorder in the first place. Normal winter colony death levels are about 15% in most locations (though where I am it's higher). CCD raised the US average to about 30% at its peak. This is painful and expensive to beekeepers, but it has literally no impact on the ability to sustain bee populations. A new beehive can be started with just a queen and a handful of workers. Hives can be made to produce queens en masse through proper management. Hence people can mail order starter hives, and there's never going to be a threat to the ability to produce these starter hives - a single hive can make many dozens per year. Even normal hives not managed for breeding starter hives will naturally produce several swarms every year; beekeepers try to discourage and/or catch these swarms.
In all likelihood, neonicotinoids are one among many different stressors to bees in the modern era that causes CCD. Modern bees are much more "stressed" than bees in the past. We've created an environment where new bee pests and diseases have spread far and wide to bees that never would have encountered them in the wild. We raise them on corn syrup and sugar water in the winter (good for reducing dysintery and increasing honey yields, but robbing them of certain vitamins and minerals). We transport them on flatbed trucks hundreds or thousands of kilometers (these are animals that get confused if you move their hive a couple meters; their ability to navigate by sight is poor, they're best navigating by the sun and dead reckoning). And countless varieties of poisons, even unintentional ones, affect them every day of their lives. There's so many factors now that weaken hives that any "new" factor to an area can push them over the edge.
I'd really like to read the paper but unfortunately it's down. But for example, do the neonicotinoids add a UV signature to the liquid not present in the sugar water? That would have little to no influence in the case of flowers in nature (where they're not looking at the nectar, and there's all sorts of other chemicals in the nectar). What other chemicals are in the neonicotinoid solution (they're rarely pure, they usually have all sorts of other chemicals to increase their effect)? What's their cleaning and handling procedure for preparing and filling the sample containers? I want to know how they controlled these experiments against factors that humans can't detect but bees absolutely can.
Just the very act of hooking electrodes up to bee neurons I'd have concerns about. Is there any induced electric field involved, or even rubbing against the bee hairs? Bees transfer information to one another via dances, such as the waggle dance. Bees build up an electrostatic charge on their body, and a waggling bee imposes an electrostatic force on the antennae and hairs of all adjacent bees, causing them to feel dance over a short distance. Their stereoscopic sense of the dance lets them know the direction, and that combined with the time allows them to work out a direction to a food source relative to the (moving) direction of the sun. It functions like transferring a memory from one be to another. There's also "negation" behaviors, by other bees who don't like the information giving out; they have a different frequency buzz to say "don't go there", and sometimes different bees may even fight with each other over what's good and what's bad information.
Also note that the linked articles refer to a second study published simultaneously which showed no effect on honeybees next to rapeseed fields sprayed with neonicotinoids versus an altogether unsprayed field. Which is pretty remarkable, because you expect almost *any* pesticide next to your hive to have a profoundly negative effect on it.
I'm sorry, but calling flagging a "troll" because they misread an article is beyond the pale. None of their behavior was "trollish". Saying that a study is flawed is in no way shape or form engaging in "fraudulent research", aka, deliberately falsifying data to push an agenda.
The Nature article appears to be down. But I have to caution, studying bee behavior is very difficult. Many of our senses, bees lack or have only at low resolution. But they have a number of senses that we don't. They see UV. They see polarized light. They sense electric fields. They're sensitive to a lot of chemicals that we cannot detect. And so forth. It's very, very easy to accidentally give bees signals, which will alter their behavior, that you didn't realize you were giving. I'd like how they attempted to control for all of this, but unfortunately that's not possible now.
The first patent (which had no attempt to commercialize) was in 1979. Most early research, with largely failed attempts to come up with a commercially viable product, were in the mid 1980s. The tech has slowly advanced since then, and nowadays is becoming rather mature.
I don't know why this is seen as a way to diss 3d printing. Some people's hatred of makerbots and their ilk is so great that they can't accept that 3d printing broadly has developed into actually useful production processes in some fields. Rocketry is a great example. It's just silly to have to make (and warehouse) moulds or stamps for parts that you only need a couple dozen of and which you may revise after just a couple launches. Now that 3d printing technologies have advanced enough to produce high quality metal parts, it's properly taking of. It even pairs nicely with CNC, there's now hybrid 3d printing / CNC machines out there. CNC gets you the coarse, primary shape and 3d printing adds in the intricate and/or jutting out components.
3d printing is a very useful technology for low volume or rapidly evolving part runs. No need to play it down just because Makerbots exist.
Agreed. XKCD covered it concerning apps, but it's usually not much better with mobile versions.
What happened with Google? It's like every change they make these days is to make things worse. And I say this as a person who's generally a big Google fan.
That's actually the point. Warm temperatures and near constant sunlight = high productivity - if you import water. Ag in California takes up 80% of the water, but ag + mining together is only 2% of the economy. It's fine when water is abundant, but when it's in short supply, ag has to give.
The majority of major, targeted hacks (rather than just sweeping the net for vulnerabilities) - aka, the kind of stuff that the US military cares about - involves sending emails or making phone calls and introducing yourself as Bob from IT, and sorry to bother you but there's a problem that we need to discuss with you, but first a couple questions...
They don't need script kiddies, they need social engineers. Question number one in the job interview should be "Is your native language Russian, Chinese, Farsi, Korean or Arabic?" And even as far as the more traditional "hacking" goes, rather than script kiddies they're going to need people who are going to custom analyze a given system and assess it's individual vulnerabilities, people with real in-depth understanding. One would presume that in most cases that the sort of targets that the US military wants to hack are going to keep themselves pretty well patched to common vulnerabilities.
AIs doing hacking? What are you talking about? This is the real world, not Ghost In The Shell.
I just want the search engine to stop changing what I'm searching for. I don't want to have to quote every word like I have to do with Google to make sure that the word is actually in the page, and by "the word", I mean "the word I type, not a word that Google things may be similar to the one I typed". It's worst when you're searching for foreign words, product names, acronyms, or whatnot and Google tries to treat them as if they're English words and declines them or chooses synonyms.
"Did you mean X?" is fine. Even "Searching for X (see original results here)", if you're very confident that the person made a common spelling error or whatnot. But just going in and swapping out words as if this is expected behavior? Terrible. At least let me disable it if you want to do that...
Beyond all this: I do like how one can do simple commonn operations on Google - math, conversions, etc. The more of these the better IMHO, so long as they have a standardized format - be they tracking numbers, flight lookups, whatever. It's okay in my book to be a bit Wolfram-y.
Keep the interface plain, simple, the sort of thing that'll work on any browser, from a modern Chrome to a simple text-only browser. Only use javascript where it's not essential for the site to work. Here's an example of something that would be a good use of javascript: if you need to track clicks, like Google does, do it through javascript rather than by having a link redirect like Google does. I hate how I can't just right click and copy link on Google without getting some massive Google redirect link.
About 10 years ago I worked on simulating a rocket with electric turbopumps for fun. The concept was the exact same as theirs - minimize the number of parts that have to operate in harsh environments to reduce cost, maintenance and risk of failure. You don't even need any penetrations of the propellant lines, the rotor of the electric motor is the compressor itself.
I have no clue whether the design will actually be practical. But it's certainly not new. I'm sure I'm not the first person that this concept occurred to.
They talk about how they need to regularly pick up and relaunch balloons when they come down. I don't see why they would need to design the balloons without any sort of reinflation system. The leak rate is tiny, right? So:
1. A little more solar panel area than they already need. 2. Hydrogen filled instead of helium filled. 3. Tiny container of sulfuric acid (hygroscopic - self-dilutes down to a given concentration with atmospheric moisture) 4. Electrolysis cell (sulfuric acid is used as the electrolyte in some types of electrolysis cells).
Problem solved. Sulfuric acid draws moisture from the air, and during the day the solar power electrolyzes it it to produce a minute trickle of hydrogen into the balloon, which replaces the minute trickle that leaks out. Your balloon's lifespan is now as long as your electronics and envelope last.
Indeed, the figures Musk cited a couple years ago was that over 80% of the part count of a Falcon 9 is sourced in-house; it's a critical part of their approach to keeping costs down. He wanted to do that with Tesla as well but it proved impossible, only about 20% of their parts (at the time) were produced in-house. Unsurprisingly the biggest problems in their early days came from external suppliers, like the gearbox issue on the Roadster.
ESAB is a Swedish company. What use is it to NASA to dote largess on a Swedish welding firm?
I'm actually rather disappointed with ESAB here. I have one of their MIG welders from the 1960s and it still works; they're a respectable name.
I feel bad for NASA mind you, in that I don't think many of their problems are their own. They get all sorts of legacy systems forced upon them due to political reasons ("You can't do decision X that would be more efficient because 1000 people in my district would lose their jobs"), they never get the funding to engineer new things from scratch based on lessons learned, etc. I do wonder, mind you, whether their heavy reliance on external contractors is something they could reform.
1. That's not "a" study, it's from a metastudy. The simple fact of the matter is, while the news makes a big deal of any study that shows a statistically significant difference between genders, most of these statistically significant differences are barely above the level of noise.
2. Where are you getting that quote from the paper? A search for those words doesn't reveal that.
There absolutely are some very demonstrable differences in certain psychological regards - mainly sexual. The most obvious of these, for example, is the fact that women are more likely to be attracted to men and men to women. But that's far from the majority of studied sexual differences that get so much play in the press. " With very few exceptions, variability within each sex and overlap between the sexes is so extensive that the authors conclude it would be inaccurate to use personality types, attitudes, and psychological indicators as a vehicle for sorting men and women. "
3. Girls are far less likely to get involved in chess to begin with in all countries (again, the fact that children mimic sex distribution of behaviors of the previous generation, no matter what they are in the particular society one is in), so one shouldn't be surprised that this is reflectected in the highest levels. Chess, as a competitive sport, has always been predominantly a "men's sport", internationally. But as XKCD notes, this is changing. The Polgár sisters are a great example. Their upbringing was an experiment by their father; to see what would happen if children were raised with extensive training in a specialist intellectual topic from an early age. One ended up an International Master while the other two ended up as Grand Masters, with Judit ending up one of the world's most powerful players of any gender. Their father's choice removed gender self -selection from the picture.
4. Oh please, you're not seriously going to pretend that there weren't tremendous pressures in Victorian society for women to not be involved in STEM-style careers, or that they weren't usually expressly banned from such. Even women who took them up as hobbies (usually well-to-do women) were often strongly advised against it, that it was harmful to a woman's delicate composition to be mentally straining one's self (a risk of the catch-all Victorian women's distorder "hysteria"; the cure for "hysteria" was to refrain from all serious physical and mental activity). This is the culture that ours came from, and it's been a slow incremental process of moving away from it ever since. The fact that you'd call "citation needed" on that is absurd, that's like "A normal human hand has five digits [citation needed]."
5."I'll see your 50% and raise it to 100%" - how does this even make sense? Women are 50% of the population (roughly). Nobody is talking about disinteresting men from pursuing STEM careers. There's already interest there. The goal is to try to also get more interest from women, to work against the carryover cultural connotations of STEM as "men's work".
6. " Are there laws or even customs, that prevent girls from entering a STEM field and excelling in it" - it's like you didn't even read my post.
7. "But what if it is bilogicial — as seems perfectly probable?" - not according to the actual research. And if one person wastes their time trying to become a physicist when they'd have made a better fry cook? Well whoop-di-freaking-doo. The world is still a better place.
I once coded for a game, Eternal Lands, where I discovered a major security bug. The game had a feature where if a person said a URL, it would turn into a clickable link. This was opened via a popen call. No input sanitization. Aka, vulnerable to injection. A person who simply speaks a malicious URL and makes it look like something interesting to click (hiding the insertion command in the path) could run it on anyone's computer who clicks to open the link.
Big problem. Simple fix. But try as I might, I couldn't get them to let me fix it. They were fine with me writing a whole new special effects graphics system for them, but one simple input sanitization, noooo, the popen works, let's not mess with it and possibly "introduce a bug"! Eventually it took me writing a sample command on the forum that would make a file in the user's home directory (which anyone who knows anything about unix commands could make far more malicious) by clicking on the URL. Suddenly they let me patch the system immediately (and deleted the forum thread... I don't blame them).
I didn't want to have to resort to that. But I didn't want a potentially dangerous exploit sitting in the system.
I never got approval to fix all of the other potential exploits in their system. Their networking protocol was terrible. I only ever saw the client code, but there was literally zero authentication that the server was who they said they were and that packets weren't malformed. Their entire security model was "let's initiate a TCP connection to a hard-coded IP and unconditionally trust everything that we receive". I can't imagine what their server code is like. But they wouldn't even let me add in trivial bounds checking to make sure that the packets weren't oversized - the most minimal of sanity checking.
The fear of changes breaking stuff often leads developers to neglect security. Changes to improve gameplay or graphics? Of course, our users will love it! Changes to the protocol? Nonono, the protocol is working, why risk breaking it?
The short of it? Don't have too much faith that that MMORPG you're playing isn't hackable in a way that could be nasty to your system.
In almost any sentence where people say "Women (verb)..." or "Men (verb)..." and it's about something psychological (as opposed to, say, something involving reproductive organs or a statistical difference in strength / height or the like), 99% of the time it's equally accurate to simply say "People (verb)..." The popular perception of the degree of differences between genders (including the effects of both brain structure and hormones) is often vastly different from the statistical reality. Screw Mars and Venus; men and women are from Earth. Psychologically, we're statistically virtually identical in most measures. And in many cases where there are differences that even manage to meet statistical significance, what differences there are may well be artifacts of culture.
Human children learn through imitating. They adopt role models (such as their parents at an early age) and mimic their behaviors, to the degree that it can even hinder them (one of the sort of psychological tests where chimps perform better than human children is to lay out a puzzle and have an adult solve it in front of the subjects, but insert a bunch of needless time-wasting steps; the human children almost invariably perform all of the time-wasting steps while the chimps catch on quickly that they're pointless and skip them). As a general rule, children most mimic members of their gender, something that socially they're rewarded for. By the very nature of this system, it inherently perpetuates the carryover of any totally non-gender-related but nonetheless gender-segregated activities from the previous generation. If you had a society where eating apples was something almost exclusively done by men, even if you didn't specifically teach the next generation that apples are a "men's fruit", the vast majority of girls wouldn't take up eating apples.
Given this, whether there would be any factual basis or not for women to be better or worse at STEM, the very fact that historically there were fewer women in STEM (a legacy from the old Victorian moral system), this will automatically lead to there being fewer women in STEM in the next generation. Now, one can do nothing and just hope that, after enough generations, the problem will remedy itself. Or, one can decide that having 50% of the human population having a solid interest in the sort of careers most valuable to the improvement of the human condition is a good thing, and maybe we should give a shot at remedying this, even if just on the "offchance" that it's not biological.
Not necessarily. A stronger RCS system would probably have for example saved this last rocket - even though that wasn't the fundamental problem. Again, that's the purpose of backup systems. They're not the primary - they're there for if the primary fails, which it will sooner or later even if you've ironed out the major bugs.
I'd wager that they chose nitrogen not because of the best thrust / mass combination for their needs, but to try to make regulatory approval for landing on land easier.
It's not like anyone else with Wikileaks (which today amounts to only a handful of people) has any ability to change the head. As Assange put it, "I am the heart and soul of this organisation, its founder, philosopher, spokesperson, original coder, organiser, financier and all the rest. If you have a problem with me, p**s off." There were lots of people that tried to get him to step down in late 2010. They are all no longer with Wikileaks, either by choice or by being explicitly kicked out.
Wikileaks could have been something great, long lasting, a major global value to society. In its early days it really looked like it was heading in that direction. Sadly ego can ruin any project. When you feel the need to start blackmailing Amnesty International for nearly a million dollars by threatening to not redact the names of their sources if they don't pay up, you've lost the moral high ground.
I have to say, I have to agree with you. There's still some missing pieces of the Snowden picture and contradictions that need to be resolved to really understand all of his actions and motivations, but overall I think of all of the major leak issues that came up, he handled his the most responsibly.
Still would have rather he avoided Greenwald, who's always been a sensationalist self-aggrandizer, but at least he made sure there'd be some sort of filter to at least try to protect the innocent (I think the filter should have been even tighter, but no question that there needs to be a debate about the fundamental points of the leaks, and it took a leaker to make that happen).
Huh? Could someone explain to me that it's a bad thing that Sony was investigating subcontractors and a foreign subsidiary for signs of corruption? Not being forced to, not being charged with it, but on their own? Isn't this what we want companies to do when they find evidence that there may be illegal or immoral activity among some of their employees? Or is this some sort of horrible shocking news that a company with 140,000 employees just within the main unit itself might have to police itself?
And let's not pretend that we're idiots here and that this sort of stuff makes up even the tinest fraction of a fraction of a percent of the leaked, non-redacted material full of personal information about regular employees doing nothing wrong.
An empty stage with no payload gets about 1 1/2 orders of magnitude more delta-V for its last kilogram of fuel than it got for its first kilogram of fuel when the countdown hit zero at the pad. And on top of that it's already got altitude, and can use the atmosphere to shed unwanted lateral momentum or aerodynamically redirect it to change direction, with little consumption of fuel. Its these things that make flyback a lot easier than it sounds at first glance.
Is "The Vehicle" a euphemism for something?;) What exactly are you talking about loosing?
(And I hardly think that suggesting a more powerful RCS as a backup (backups being critically fundamental rocket design) is "redesigning the whole thing"). I don't know why they went with cold gas thrusters, but hydrazine RCS thrusters are mature tech, one that even SpaceX themselves uses - they're reliable and have a good power to weight ratio for their size. I presume there's a reason they went with nitrogen instead, but I don't know that reason.
I dunno, they might be a bit boring.
I think it's important to ask questions because there's been literally "dozens" of different things "definitively linked" with CCD. The public likes to seize on neonicotinoids, but they're probably one of the least supported of these many different "definitively linked" reasons. Whole countries have gone so far as to outright ban neonicotinoids, with no effect on CCD. France, for example, banned them. The next year they largely switched to blaming the condition on Asian Hornets when the decline rates didn't decrease.
The problem is that when you ban a certain pesticide, people start using others. And going from neonicotinoids to organophosphates is a massive step backwards in terms of general safety, not just to pollinators, but especially to more complex animals as well. But the biggest problem with the neonicotinoid theory is that neonicotinoids are only used in a small fraction of the areas where CCD exists. Bees can only fly several kilometers from the hive, they're not going cross-country and picking up every pesticide in every farmer's arsenal. It even exists among people who are in places where no pesticides at all are used.
It's easy for the general public to latch onto a particular cause. But once you learn more about beekeeping you realize how incredibly much out there is that can utterly f* up a hive. And which have in history regularly collapsed bee populations, far worse than the collapses we have today. Trachael mites once nearly obliterated beekeeping in Europe, saved mainly by the development of the Buckfast bee. Check out this very inexhaustive list of bee pests and diseases. There's even some really counterintuitive effects in that small levels of some pesticides can actually increase hive survival rates, in that they're deadlier to bee pests like mites than to the bees themselves.
The public also tends to totally understand colony collapse disorder in the first place. Normal winter colony death levels are about 15% in most locations (though where I am it's higher). CCD raised the US average to about 30% at its peak. This is painful and expensive to beekeepers, but it has literally no impact on the ability to sustain bee populations. A new beehive can be started with just a queen and a handful of workers. Hives can be made to produce queens en masse through proper management. Hence people can mail order starter hives, and there's never going to be a threat to the ability to produce these starter hives - a single hive can make many dozens per year. Even normal hives not managed for breeding starter hives will naturally produce several swarms every year; beekeepers try to discourage and/or catch these swarms.
In all likelihood, neonicotinoids are one among many different stressors to bees in the modern era that causes CCD. Modern bees are much more "stressed" than bees in the past. We've created an environment where new bee pests and diseases have spread far and wide to bees that never would have encountered them in the wild. We raise them on corn syrup and sugar water in the winter (good for reducing dysintery and increasing honey yields, but robbing them of certain vitamins and minerals). We transport them on flatbed trucks hundreds or thousands of kilometers (these are animals that get confused if you move their hive a couple meters; their ability to navigate by sight is poor, they're best navigating by the sun and dead reckoning). And countless varieties of poisons, even unintentional ones, affect them every day of their lives. There's so many factors now that weaken hives that any "new" factor to an area can push them over the edge.
I'd really like to read the paper but unfortunately it's down. But for example, do the neonicotinoids add a UV signature to the liquid not present in the sugar water? That would have little to no influence in the case of flowers in nature (where they're not looking at the nectar, and there's all sorts of other chemicals in the nectar). What other chemicals are in the neonicotinoid solution (they're rarely pure, they usually have all sorts of other chemicals to increase their effect)? What's their cleaning and handling procedure for preparing and filling the sample containers? I want to know how they controlled these experiments against factors that humans can't detect but bees absolutely can.
Just the very act of hooking electrodes up to bee neurons I'd have concerns about. Is there any induced electric field involved, or even rubbing against the bee hairs? Bees transfer information to one another via dances, such as the waggle dance. Bees build up an electrostatic charge on their body, and a waggling bee imposes an electrostatic force on the antennae and hairs of all adjacent bees, causing them to feel dance over a short distance. Their stereoscopic sense of the dance lets them know the direction, and that combined with the time allows them to work out a direction to a food source relative to the (moving) direction of the sun. It functions like transferring a memory from one be to another. There's also "negation" behaviors, by other bees who don't like the information giving out; they have a different frequency buzz to say "don't go there", and sometimes different bees may even fight with each other over what's good and what's bad information.
Also note that the linked articles refer to a second study published simultaneously which showed no effect on honeybees next to rapeseed fields sprayed with neonicotinoids versus an altogether unsprayed field. Which is pretty remarkable, because you expect almost *any* pesticide next to your hive to have a profoundly negative effect on it.
I'm sorry, but calling flagging a "troll" because they misread an article is beyond the pale. None of their behavior was "trollish". Saying that a study is flawed is in no way shape or form engaging in "fraudulent research", aka, deliberately falsifying data to push an agenda.
The Nature article appears to be down. But I have to caution, studying bee behavior is very difficult. Many of our senses, bees lack or have only at low resolution. But they have a number of senses that we don't. They see UV. They see polarized light. They sense electric fields. They're sensitive to a lot of chemicals that we cannot detect. And so forth. It's very, very easy to accidentally give bees signals, which will alter their behavior, that you didn't realize you were giving. I'd like how they attempted to control for all of this, but unfortunately that's not possible now.
Thank you for your correction. I'll post an apology for my English misuse on every light post in the area, from Seltjarnes to Mosfellsbær.
The first patent (which had no attempt to commercialize) was in 1979. Most early research, with largely failed attempts to come up with a commercially viable product, were in the mid 1980s. The tech has slowly advanced since then, and nowadays is becoming rather mature.
I don't know why this is seen as a way to diss 3d printing. Some people's hatred of makerbots and their ilk is so great that they can't accept that 3d printing broadly has developed into actually useful production processes in some fields. Rocketry is a great example. It's just silly to have to make (and warehouse) moulds or stamps for parts that you only need a couple dozen of and which you may revise after just a couple launches. Now that 3d printing technologies have advanced enough to produce high quality metal parts, it's properly taking of. It even pairs nicely with CNC, there's now hybrid 3d printing / CNC machines out there. CNC gets you the coarse, primary shape and 3d printing adds in the intricate and/or jutting out components.
3d printing is a very useful technology for low volume or rapidly evolving part runs. No need to play it down just because Makerbots exist.
Agreed. XKCD covered it concerning apps, but it's usually not much better with mobile versions.
What happened with Google? It's like every change they make these days is to make things worse. And I say this as a person who's generally a big Google fan.
That's actually the point. Warm temperatures and near constant sunlight = high productivity - if you import water. Ag in California takes up 80% of the water, but ag + mining together is only 2% of the economy. It's fine when water is abundant, but when it's in short supply, ag has to give.
I don't think the Mandelbrot Set itself persay is all that useful, but its 3d relatives like Mandelbox, Mandelbulb, etc sure generates some amazing landscapes... I could totally picture that used in games or movies. It's amazing the diversity it can do with some parameter changes - steampunk machinery and evolving spacescapes, reactors / futuristic computers, art deco, extradimensional beings, alien cities, floating viny landscapes, transforming robotics, things hard to describe, etc.
I'd love to have a house / secret supervillain lair that looks like this one ;)
The majority of major, targeted hacks (rather than just sweeping the net for vulnerabilities) - aka, the kind of stuff that the US military cares about - involves sending emails or making phone calls and introducing yourself as Bob from IT, and sorry to bother you but there's a problem that we need to discuss with you, but first a couple questions...
They don't need script kiddies, they need social engineers. Question number one in the job interview should be "Is your native language Russian, Chinese, Farsi, Korean or Arabic?" And even as far as the more traditional "hacking" goes, rather than script kiddies they're going to need people who are going to custom analyze a given system and assess it's individual vulnerabilities, people with real in-depth understanding. One would presume that in most cases that the sort of targets that the US military wants to hack are going to keep themselves pretty well patched to common vulnerabilities.
AIs doing hacking? What are you talking about? This is the real world, not Ghost In The Shell.
I just want the search engine to stop changing what I'm searching for. I don't want to have to quote every word like I have to do with Google to make sure that the word is actually in the page, and by "the word", I mean "the word I type, not a word that Google things may be similar to the one I typed". It's worst when you're searching for foreign words, product names, acronyms, or whatnot and Google tries to treat them as if they're English words and declines them or chooses synonyms.
"Did you mean X?" is fine. Even "Searching for X (see original results here)", if you're very confident that the person made a common spelling error or whatnot. But just going in and swapping out words as if this is expected behavior? Terrible. At least let me disable it if you want to do that...
Beyond all this: I do like how one can do simple commonn operations on Google - math, conversions, etc. The more of these the better IMHO, so long as they have a standardized format - be they tracking numbers, flight lookups, whatever. It's okay in my book to be a bit Wolfram-y.
Keep the interface plain, simple, the sort of thing that'll work on any browser, from a modern Chrome to a simple text-only browser. Only use javascript where it's not essential for the site to work. Here's an example of something that would be a good use of javascript: if you need to track clicks, like Google does, do it through javascript rather than by having a link redirect like Google does. I hate how I can't just right click and copy link on Google without getting some massive Google redirect link.
Just my thoughts. :)
Apparently you don't know the meaning of the words "for fun".
About 10 years ago I worked on simulating a rocket with electric turbopumps for fun. The concept was the exact same as theirs - minimize the number of parts that have to operate in harsh environments to reduce cost, maintenance and risk of failure. You don't even need any penetrations of the propellant lines, the rotor of the electric motor is the compressor itself.
I have no clue whether the design will actually be practical. But it's certainly not new. I'm sure I'm not the first person that this concept occurred to.
They talk about how they need to regularly pick up and relaunch balloons when they come down. I don't see why they would need to design the balloons without any sort of reinflation system. The leak rate is tiny, right? So:
1. A little more solar panel area than they already need.
2. Hydrogen filled instead of helium filled.
3. Tiny container of sulfuric acid (hygroscopic - self-dilutes down to a given concentration with atmospheric moisture)
4. Electrolysis cell (sulfuric acid is used as the electrolyte in some types of electrolysis cells).
Problem solved. Sulfuric acid draws moisture from the air, and during the day the solar power electrolyzes it it to produce a minute trickle of hydrogen into the balloon, which replaces the minute trickle that leaks out. Your balloon's lifespan is now as long as your electronics and envelope last.
Indeed, the figures Musk cited a couple years ago was that over 80% of the part count of a Falcon 9 is sourced in-house; it's a critical part of their approach to keeping costs down. He wanted to do that with Tesla as well but it proved impossible, only about 20% of their parts (at the time) were produced in-house. Unsurprisingly the biggest problems in their early days came from external suppliers, like the gearbox issue on the Roadster.
ESAB is a Swedish company. What use is it to NASA to dote largess on a Swedish welding firm?
I'm actually rather disappointed with ESAB here. I have one of their MIG welders from the 1960s and it still works; they're a respectable name.
I feel bad for NASA mind you, in that I don't think many of their problems are their own. They get all sorts of legacy systems forced upon them due to political reasons ("You can't do decision X that would be more efficient because 1000 people in my district would lose their jobs"), they never get the funding to engineer new things from scratch based on lessons learned, etc. I do wonder, mind you, whether their heavy reliance on external contractors is something they could reform.
1. That's not "a" study, it's from a metastudy. The simple fact of the matter is, while the news makes a big deal of any study that shows a statistically significant difference between genders, most of these statistically significant differences are barely above the level of noise.
2. Where are you getting that quote from the paper? A search for those words doesn't reveal that.
There absolutely are some very demonstrable differences in certain psychological regards - mainly sexual. The most obvious of these, for example, is the fact that women are more likely to be attracted to men and men to women. But that's far from the majority of studied sexual differences that get so much play in the press. " With very few exceptions, variability within each sex and overlap between the sexes is so extensive that the authors conclude it would be inaccurate to use personality types, attitudes, and psychological indicators as a vehicle for sorting men and women. "
3. Girls are far less likely to get involved in chess to begin with in all countries (again, the fact that children mimic sex distribution of behaviors of the previous generation, no matter what they are in the particular society one is in), so one shouldn't be surprised that this is reflectected in the highest levels. Chess, as a competitive sport, has always been predominantly a "men's sport", internationally. But as XKCD notes, this is changing. The Polgár sisters are a great example. Their upbringing was an experiment by their father; to see what would happen if children were raised with extensive training in a specialist intellectual topic from an early age. One ended up an International Master while the other two ended up as Grand Masters, with Judit ending up one of the world's most powerful players of any gender. Their father's choice removed gender self -selection from the picture.
4. Oh please, you're not seriously going to pretend that there weren't tremendous pressures in Victorian society for women to not be involved in STEM-style careers, or that they weren't usually expressly banned from such. Even women who took them up as hobbies (usually well-to-do women) were often strongly advised against it, that it was harmful to a woman's delicate composition to be mentally straining one's self (a risk of the catch-all Victorian women's distorder "hysteria"; the cure for "hysteria" was to refrain from all serious physical and mental activity). This is the culture that ours came from, and it's been a slow incremental process of moving away from it ever since. The fact that you'd call "citation needed" on that is absurd, that's like "A normal human hand has five digits [citation needed]."
5."I'll see your 50% and raise it to 100%" - how does this even make sense? Women are 50% of the population (roughly). Nobody is talking about disinteresting men from pursuing STEM careers. There's already interest there. The goal is to try to also get more interest from women, to work against the carryover cultural connotations of STEM as "men's work".
6. " Are there laws or even customs, that prevent girls from entering a STEM field and excelling in it" - it's like you didn't even read my post.
7. "But what if it is bilogicial — as seems perfectly probable?" - not according to the actual research. And if one person wastes their time trying to become a physicist when they'd have made a better fry cook? Well whoop-di-freaking-doo. The world is still a better place.
I once coded for a game, Eternal Lands, where I discovered a major security bug. The game had a feature where if a person said a URL, it would turn into a clickable link. This was opened via a popen call. No input sanitization. Aka, vulnerable to injection. A person who simply speaks a malicious URL and makes it look like something interesting to click (hiding the insertion command in the path) could run it on anyone's computer who clicks to open the link.
Big problem. Simple fix. But try as I might, I couldn't get them to let me fix it. They were fine with me writing a whole new special effects graphics system for them, but one simple input sanitization, noooo, the popen works, let's not mess with it and possibly "introduce a bug"! Eventually it took me writing a sample command on the forum that would make a file in the user's home directory (which anyone who knows anything about unix commands could make far more malicious) by clicking on the URL. Suddenly they let me patch the system immediately (and deleted the forum thread... I don't blame them).
I didn't want to have to resort to that. But I didn't want a potentially dangerous exploit sitting in the system.
I never got approval to fix all of the other potential exploits in their system. Their networking protocol was terrible. I only ever saw the client code, but there was literally zero authentication that the server was who they said they were and that packets weren't malformed. Their entire security model was "let's initiate a TCP connection to a hard-coded IP and unconditionally trust everything that we receive". I can't imagine what their server code is like. But they wouldn't even let me add in trivial bounds checking to make sure that the packets weren't oversized - the most minimal of sanity checking.
The fear of changes breaking stuff often leads developers to neglect security. Changes to improve gameplay or graphics? Of course, our users will love it! Changes to the protocol? Nonono, the protocol is working, why risk breaking it?
The short of it? Don't have too much faith that that MMORPG you're playing isn't hackable in a way that could be nasty to your system.
Obviously what's at hand here is mental differences. Are there demonstrable mental differences? Yes! But there's only one issue with that...
In almost any sentence where people say "Women (verb)..." or "Men (verb)..." and it's about something psychological (as opposed to, say, something involving reproductive organs or a statistical difference in strength / height or the like), 99% of the time it's equally accurate to simply say "People (verb)..." The popular perception of the degree of differences between genders (including the effects of both brain structure and hormones) is often vastly different from the statistical reality. Screw Mars and Venus; men and women are from Earth. Psychologically, we're statistically virtually identical in most measures. And in many cases where there are differences that even manage to meet statistical significance, what differences there are may well be artifacts of culture.
Human children learn through imitating. They adopt role models (such as their parents at an early age) and mimic their behaviors, to the degree that it can even hinder them (one of the sort of psychological tests where chimps perform better than human children is to lay out a puzzle and have an adult solve it in front of the subjects, but insert a bunch of needless time-wasting steps; the human children almost invariably perform all of the time-wasting steps while the chimps catch on quickly that they're pointless and skip them). As a general rule, children most mimic members of their gender, something that socially they're rewarded for. By the very nature of this system, it inherently perpetuates the carryover of any totally non-gender-related but nonetheless gender-segregated activities from the previous generation. If you had a society where eating apples was something almost exclusively done by men, even if you didn't specifically teach the next generation that apples are a "men's fruit", the vast majority of girls wouldn't take up eating apples.
Given this, whether there would be any factual basis or not for women to be better or worse at STEM, the very fact that historically there were fewer women in STEM (a legacy from the old Victorian moral system), this will automatically lead to there being fewer women in STEM in the next generation. Now, one can do nothing and just hope that, after enough generations, the problem will remedy itself. Or, one can decide that having 50% of the human population having a solid interest in the sort of careers most valuable to the improvement of the human condition is a good thing, and maybe we should give a shot at remedying this, even if just on the "offchance" that it's not biological.
Not necessarily. A stronger RCS system would probably have for example saved this last rocket - even though that wasn't the fundamental problem. Again, that's the purpose of backup systems. They're not the primary - they're there for if the primary fails, which it will sooner or later even if you've ironed out the major bugs.
I'd wager that they chose nitrogen not because of the best thrust / mass combination for their needs, but to try to make regulatory approval for landing on land easier.
It's not like anyone else with Wikileaks (which today amounts to only a handful of people) has any ability to change the head. As Assange put it, "I am the heart and soul of this organisation, its founder, philosopher, spokesperson, original coder, organiser, financier and all the rest. If you have a problem with me, p**s off." There were lots of people that tried to get him to step down in late 2010. They are all no longer with Wikileaks, either by choice or by being explicitly kicked out.
Wikileaks could have been something great, long lasting, a major global value to society. In its early days it really looked like it was heading in that direction. Sadly ego can ruin any project. When you feel the need to start blackmailing Amnesty International for nearly a million dollars by threatening to not redact the names of their sources if they don't pay up, you've lost the moral high ground.
I have to say, I have to agree with you. There's still some missing pieces of the Snowden picture and contradictions that need to be resolved to really understand all of his actions and motivations, but overall I think of all of the major leak issues that came up, he handled his the most responsibly.
Still would have rather he avoided Greenwald, who's always been a sensationalist self-aggrandizer, but at least he made sure there'd be some sort of filter to at least try to protect the innocent (I think the filter should have been even tighter, but no question that there needs to be a debate about the fundamental points of the leaks, and it took a leaker to make that happen).
Huh? Could someone explain to me that it's a bad thing that Sony was investigating subcontractors and a foreign subsidiary for signs of corruption? Not being forced to, not being charged with it, but on their own? Isn't this what we want companies to do when they find evidence that there may be illegal or immoral activity among some of their employees? Or is this some sort of horrible shocking news that a company with 140,000 employees just within the main unit itself might have to police itself?
And let's not pretend that we're idiots here and that this sort of stuff makes up even the tinest fraction of a fraction of a percent of the leaked, non-redacted material full of personal information about regular employees doing nothing wrong.
An empty stage with no payload gets about 1 1/2 orders of magnitude more delta-V for its last kilogram of fuel than it got for its first kilogram of fuel when the countdown hit zero at the pad. And on top of that it's already got altitude, and can use the atmosphere to shed unwanted lateral momentum or aerodynamically redirect it to change direction, with little consumption of fuel. Its these things that make flyback a lot easier than it sounds at first glance.
Still not "easy", but a lot easier.
Is "The Vehicle" a euphemism for something? ;) What exactly are you talking about loosing?
(And I hardly think that suggesting a more powerful RCS as a backup (backups being critically fundamental rocket design) is "redesigning the whole thing"). I don't know why they went with cold gas thrusters, but hydrazine RCS thrusters are mature tech, one that even SpaceX themselves uses - they're reliable and have a good power to weight ratio for their size. I presume there's a reason they went with nitrogen instead, but I don't know that reason.