Serious? No. I don't seriously expect really safe speed limits to be set up by any democracy that has so many motorists in it. But I do think that's what we ought to do. As a civilisation, we are killing our own children at an appalling rate, just so that motorists can catch up to the back of the next long line of stationary traffic a few seconds faster. In town, slow down.
Look at the scenario you described. A car doing the speed limit towards a marked crosswalk... it's such a familiar scenario that we forget to be horrified. Think about what we're doing here. We have footpaths across the street specifically for people to walk across. And then we have motorists driving straight at those footpaths, at such speed that it would literally be a crime to go any faster at all, at such speed that they couldn't possibly stop should anyone suddenly walk out on the path. These motorists expect everyone else in the world to pay attention, to stay out of their way. God forbid they themselves should slow down! They're 'doing the limit' and that makes it OK.
That limit is obviously much too high. It should come down. Twenty is plenty.
Then let's redesign those footpaths. At the moment there are raised paths either side of the street, and when the path runs across the middle of the street it is lowered. For the convenience of motorists, of course; otherwise they might have to slow down. Well, let them slow down! The path across the street is a pedestrian walkway just like the paths either side, so let's have it at the same height, for the convenience of people using wheelchairs, people pushing infants in prams, people with mobility issues. We'll put a gentle slope to either side of the path so that it isn't a nasty bump for motor traffic. Well, I mean - so that it isn't a nasty bump if the motor traffic is moving at a safe speed.
Yeah, speed limits are definitely way too high, you're right about that. 20mph in cities is plenty. Then you have a lot longer in which to notice people walking across the road, your brakes have much less work to do in order to bring the vehicle safely to a stop, and if you still fail to respond in time you'll do much less bodily harm to somebody.
you would long for the good old days when the worst you could get linked to is the goatse.cx guy
'Would'? Where've you been for the last five years? hello.jpg is positively vanilla by modern standards. People nowadays link you to 2girls1cup, 3guys1hammer, SWAP.AVI, Pain Olympics, anythingatall.on.nimp.org, cp, beheadings, mutilations, massacres, cat burnings, witch burnings... If you're still thinking of good old goatse as the worst thing in the world, wow. Go and hang around on the Russian chans, you'll find what you describe has long since come to pass.
Well, look, we can analyse the details of the plot and deduce the necessity for off-screen time travel. I mean, we know full well the Doctor has all manner of adventures that don't get televised, he was only ~600 when we first met him and now he claims to be in his 900s and everyone knows he's fibbing about that (and by the way, Doctor, regenerating as a younger man every time is fooling nobody). So there's centuries of the Doctor's life we simply don't see happen.
Plotting only the time journeys that made it onto TV is more than enough of a job. Exploring the rest of the timey wimey ball... well, my monitor has only a two-dimensional display.
Seems to me that there's no need for the robots to meet to have sex. Obviously in deep space that's going to be a problem, what with distances and speeds. Instead, the robots could quite easily have sex by radio. Sex is, after all, just a way of exchanging genomic data. Let the robot broadcast excerpts from its own design data archive to anybody who cares to listen; let a robot hearing the broadcast patch the input data together with its own design data to produce hybrids.
Certainly this is unnecessary if we're postulating superintelligent machines perfectly capable of redesigning themselves on the fly to meet whatever situations they encounter. But the road to a Culture GSV is a long one. You might well begin with a swarm of rather dumb self-replicating probes with very limited capabilities - I mean, somewhere down the line there must have been an intelligent designer, and so the progenitor robot would have had to be incredibly basic. But if you give them the means to exchange design details with each other over long distances - this worked, this didn't - then eventually you might indeed have a horde of sexy, sexy von Neumann machines, all procreating and evolving their way to becoming a galaxy-spanning intelligent race in their own right.
And anyway, even if the robots do not exchange design data - if they don't have sex at all - well, most living things on Earth don't have sex either. Doesn't disqualify them from the 'life' category.
There might or might not be a $20 bill in my wallet; I won't know for certain until I look for it?
No, cash behaves fairly classically. It's the rest of the economy that's quantum. For example, your house might or might not be worth $200,000. You won't know for certain until you try to sell it.
Didn't a bunch of whackjobs a few years ago try and claim that Hurricane Katrina was the result of some Weather Control Device created by the Axis of Evil?
That was created by HAARP as well. As was the Haiti earthquake. And the Indian Ocean tsunami.
Also, there was this one C64 game, where you nominally play a world peacekeeper, IIRC. However, despite being a small kid (or perhaps because of it), I quickly figured out how to provoke nuclear exchanges; much more entertaining.
There was Balance of Power which was a Cold War sim; you'd normally play that until you got sufficiently pissed off at the endless manufactured crises and then go and play Bravo Romeo Delta until the planet glowed. Myself I was quite fond of Central Intelligence where you were the guy in charge of organising a revolt in some banana republic or other; it had a wonderful simulated society and economy, you'd graduate from organising student leaflet campaigns to stealing explosives from quarries and using them in your freedom fighting to arming and training guerrillas in the woods. Lovely idea, shame about the dreadful interface.
The human brain is composed of one hundred billion or so neurons. Looks like it's pretty much finite to me. I have ten times as many bytes of information in my hard disk.
That doesn't mean your hard disk is anything approaching the complexity of a human brain. The amount of information encoded in a neural network is far, far more than the number of neurons in it! 100 billion neurons, each with something like seven thousand connections to other neurons. So more like 700 trillion connections. If each neuron is numbered using a 37-bit ID (enough for 100 billion) then to list a neuron's connections takes 7000 times 37 bits = ~32k. Multiply by 100 billion, that's three petabytes.
Then represent excitatory versus inhibitory (1 bit per neuron? Or do we have to allow grey areas?), activation potentials (continuous? What's the range, and how granular do we need it?), and any relevant hormones or drugs or other chemistry currently in operation on the neural network, and you're looking at some big numbers. Big, but not beyond contemplation: Google must be getting towards that size, the Internet probably got there years ago. We might be able to model the brain as a neural network before too long. That's probably where we find out that all that gooey chemistry stuff that computer scientists don't like to think too much about actually mattered more than we thought...
The "Windows Compatibility List" is pretty much every piece of hardware everywhere.
You would think so, wouldn't you? But it seems that drivers for my USB wireless adaptor are not to be had for anything later than Windows XP, though it's only a few years old. Manufacturer not supporting it any more. In Ubuntu it just works, just as I expected, but to get it working in Windows I had to find out the chipset it used and try a whole bunch of unsupported driver files downloaded from dubious websites until I found one that worked.
I consider myself a reasonably advanced computer user, but on this showing Windows isn't ready for the mainstream desktop. Can you imagine expecting Grandma to handle that sort of mess? No way. The mainstream will stay with Linux and leave Windows to the nerds, geeks and hobbyists who are into the whole 'closed-source' movement.
If we started finding fossils that suddenly changed from one type of animal to another in a single generation
That wouldn't falsify evolution. Consider the classic Just-So story of speciation. Let there be species X which lives throughout country C. Sea levels rise and the centre of country C is flooded, splitting it into countries A and B. In the new climate, life is easy in country A, but very hard in country B. So the lineage of species X in country A changes very little over the next few million years, while the lineage in country B adapts to its great hardship and changes into something we would call species Y, which we'll suppose is a badass tough variant.
Now let sea levels fall and country C be reunited. Species X and Y are now in competition with each other, and Y wins handily, driving X into extinction across the whole country in very short order.
Millions of years later we dig in what was once country A, and we find fossils of species X and Y. What do we see? Species X was replaced by Species Y - an obviously related successor - almost overnight!
Ah, but core temperature isn't what we're interested in here. We're interested in the surface temperature. What are the dynamics of a star's atmosphere - of the outer layers of gas not participating in nuclear fusion? Well, there's gas pressure which tends to make the atmosphere expand and cool, and gravity which tends to make the atmosphere contract and heat up. As the atmosphere expands and cools, gas pressure decreases, and as the atmosphere contracts and warms, thermal pressure increases, and eventually an equilibrium is struck where the gas pressure outwards equals the gravitational force inwards.
The core heat source is actually secondary to this. More massive stars are hotter because they are more massive - the sheer mass of gas that collapsed from a nebula to form such a star provides huge amounts of energy by gravitational accretion. Then, because of being so hot to begin with, they burn fuel faster than their smaller, cooler cousins, and that keeps them hot.
So the largest stars are the ones where the equilibrium is found at a point where the atmosphere is large, sparse and cool, and hence red. This isn't such a star. In a super-hot star like this the radiation pressure comes to predominate over gas pressure, and that has a tendency to blow any surrounding gas clean away. It's too heavy, and, as you say, too hot, and very unstable. So it can't form a well-behaved convective envelope around itself and become a red hypergiant. It remains a very massive, very hot, and very luminous star, but it never troubles the list of the largest stars known.
One thing the article didn't mention was the radius of the new star. It's obviously larger than the sun, but is it the "largest" star found or simply the most massive? It seems with that kind of mass it might be denser than your average supergiant and have less volume, and therefore less radius.
It's blue, therefore it's hot, therefore it's dense, therefore it's (comparatively) small. VY Canis Majoris would be much larger, even if not so massive - and cooler, and therefore red. Indeed, notice the diagram in the article, showing this star as compared to the Sun. The Sun is visible on the diagram. This would not be the case with VY Canis Majoris!
It's all gas law really, just like in high school physics. pV = nRT. When a star contracts, it heats up; when it expands, it cools. As a supergiant's core switches on and off as it works its thermonuclear way up the periodic table, it may inflate and deflate over and over again.
None of them have any credibility left, and will never get it back until they condemn instead of defend "Mike's Nature trick".
Just to be sure you're not a crank: could you explain to us what "Mike's Nature trick" was, what was in "decline" and how it was hidden? I mean, you're not just regurgitating memes from denialist blogs, right? You do actually know what you're talking about, right?
i have been saying this for quite some time but hasn't anyone paid attention to the fact that hydrocarbons produce more water than carbon dioxide?
Our production of water vapour isn't all that big an issue. There's a given amount of water vapour that can exist in the air, which depends on local pressure and temperature. If for some reason there's too much around, it rains or forms dew. If there's too little around, water on the ground evaporates until equilibrium. There's already a huge amount of water available, so if the Earth's atmosphere was capable of taking up significantly more water vapour, it would have a source from which to take it, human industry or no. On the largest scale, then, we're not adding water vapour to the atmosphere, where it would affect the greenhouse effect very significantly; we're adding liquid water to the ocean, where it makes very little difference at all.
Carbon dioxide on the other hand is a trace gas in the Earth's atmosphere. While the industrial output of water won't affect the ocean noticeably, our output of carbon dioxide has very definitely increased the concentration of that gas in the atmosphere. Will the plants not absorb it? Possibly; carbon dioxide is good for plant life. But the exchange is much slower here. Water rains out to the ocean in an hour or two, but a great tree takes decades to grow and absorb a comparable mass of carbon. And the proportions are very different. Estimates are that we've added something like 35% to the pre-industrial levels of carbon dioxide; that would be fine if the plant biomass increased by the same proportion, so that our additional carbon was locked up in the form of wood rather than loose in the air. 35% increase in plant biomass is a lot to ask. Especially when you're busy bulldozing rainforests for cattle grazing.
Think wearables. Batteries are heavy and inefficient and need periodic access to a power supply to recharge; that limits how long you can go on using your various toys, especially if you're way out in the wilderness on some mission or other. If you can draw power directly from the wearer's body, then you can greatly improve the usefulness of his electronic augmentations.
I've been reading the odd scraps of information coming out about Taranis for a few years now. Supposedly it was supposed to begin flight trials in 2010; has this happened yet, or have they just shown off the prototype model on the ground to a few media hacks?
There was an interesting conspiracy theory put about a while back that Taranis was only incidentally a scary UAV project - that its real purpose was technology laundering. BAE have had access to American stealth technology through the JSF project; Taranis is a stealth aircraft supposedly developed independently. So if ten years from now BAE start selling stealth drones to every sheikh with a few billion quid in his trousers, they'll say 'oh, this technology is derived from the Taranis project. Nothing to do with the American secrets we were shown while working on the F-35, no, not at all...'
Re:It's not the frontier, but the mass market
on
The End of Free
·
· Score: 1
closed, locked down and heavily restricted devices
BusyBox v1.10.2 (Debian 3:1.10.2.legal-1osso30+0m5) built-in shell (ash)
Enter 'help' for a list of built-in commands.
~ $ sudo gainroot
Root shell enabled.
BusyBox v1.10.2 (Debian 3:1.10.2.legal-1osso30+0m5) built-in shell (ash)
Enter 'help' for a list of built-in commands.
It like admitting that communism can't produce enough rope, only capitalism can, but they need rope so they deal with capitalists.
Read 1984 closely enough and you'll see this in effect. The despairing ending which everybody remembers is the future imagined as a boot stamping on a human face forever. But what was the first example we saw of the Party's information control in action? Why, it was our hero Winston Smith editing the figures for boot production.
For example, the Ministry of Plenty's forecast had estimated the output of boots for the quarter at 145 million pairs. The actual output was given as sixty-two millions. Winston, however, in rewriting the forecast, marked the figure down to fifty-seven millions, so as to allow for the usual claim that the quota had been overfulfilled. In any case, sixty-two millions was no nearer the truth than fifty-seven millions, or than 145 millions. Very likely no boots had been produced at all. Likelier still, nobody knew how many had been produced, much less cared. All one knew was that every quarter astronomical numbers of boots were produced on paper, while perhaps half the population of Oceania went barefoot.
Keep stamping, Big Brother. The day's coming soon when you'll run out of boots.
Not to mention that whenever you leveled up, everything else in the game mysteriously leveled up as well, in a way that was so painfully obvious it totally broke my suspension of disbelief. When the wolves mysteriously turned into timber wolves I realized leveling was pointless.
Sounds a lot like Dragon Age. Every monster levels along with you; advance your skills enough and it tells you their level on the mini-map. Every single mook in the room, all the same level, all one level below you.
Massively pissed me off, because it takes away all the 'omg cool now I kick ass!' reward of levelling up. I don't mind the monsters scaling up to harder kinds of monsters; as I levelled up further in Fallout 3 I randomly encountered yao-guai and deathclaws more and more often and that was fine. And I don't mind the game scaling the difficulty up by throwing monsters at me in greater numbers; I feel really good about levelling up when I massacre dozens of a monster type that used to give me a hard time one on one. But I can't accept that the exact same goons I was slaughtering back at the start of the game have all uniformly levelled up alongside me.
4% sure does seem significant. But more interesting is that the measurement is thought to be much more precise because of the method of measurement. Doesn't it seem more likely that it's just not possible to get an accurate measurement with the electron -- like measuring a grape with a yardstick instead of a micrometer?
Maybe, but this is still surprising. Measure a grape with a metre rule, you should still be able to say 'it's between a centimetre and a centimetre and a half.' Measure it with a micrometer, and you'd expect to see a result like 'It's 1.2144 centimetres.' If the micrometer instead measured the grape at 0.7218 centimetres, well, you'd be puzzled. First of all, of course, you'd check you were doing it right. You'd examine your micrometer and make sure you were operating it correctly. You'd recheck how you measured it with the metre rule - is it zero from where the number is printed, or from the edge of the ruler, is the ruler maybe worn down at the edge?
But if all that checked out and you still had this discrepancy, you'd start to wonder if your ruler and your micrometer were really measuring the same units.
Hence the suggestion of new physics. Theoretically the muon should act like a heavy electron - interacting with the proton in just the same way, so that it can be used as a more precise probe on the size of the proton. It would be the micrometer to the electron's metre rule. If it doesn't - if the muon interacts with the proton in some unexpected way so as to throw the measure off - then we've discovered something beyond the standard model.
There are quite a few indications that there is physics beyond the standard model - heavy neutrinos, the abundance of matter over antimatter, the dark matter - and so if we can add this to the list then maybe it can help pin down just what sort of a new theory we're looking for. We've got to have something to do once the good people of Geneva finally hammer us out a Higgs, after all:-)
Slashdot Mirror
Serious? No. I don't seriously expect really safe speed limits to be set up by any democracy that has so many motorists in it. But I do think that's what we ought to do. As a civilisation, we are killing our own children at an appalling rate, just so that motorists can catch up to the back of the next long line of stationary traffic a few seconds faster. In town, slow down.
Look at the scenario you described. A car doing the speed limit towards a marked crosswalk... it's such a familiar scenario that we forget to be horrified. Think about what we're doing here. We have footpaths across the street specifically for people to walk across. And then we have motorists driving straight at those footpaths, at such speed that it would literally be a crime to go any faster at all, at such speed that they couldn't possibly stop should anyone suddenly walk out on the path. These motorists expect everyone else in the world to pay attention, to stay out of their way. God forbid they themselves should slow down! They're 'doing the limit' and that makes it OK.
That limit is obviously much too high. It should come down. Twenty is plenty.
Then let's redesign those footpaths. At the moment there are raised paths either side of the street, and when the path runs across the middle of the street it is lowered. For the convenience of motorists, of course; otherwise they might have to slow down. Well, let them slow down! The path across the street is a pedestrian walkway just like the paths either side, so let's have it at the same height, for the convenience of people using wheelchairs, people pushing infants in prams, people with mobility issues. We'll put a gentle slope to either side of the path so that it isn't a nasty bump for motor traffic. Well, I mean - so that it isn't a nasty bump if the motor traffic is moving at a safe speed.
Yeah, speed limits are definitely way too high, you're right about that. 20mph in cities is plenty. Then you have a lot longer in which to notice people walking across the road, your brakes have much less work to do in order to bring the vehicle safely to a stop, and if you still fail to respond in time you'll do much less bodily harm to somebody.
'Would'? Where've you been for the last five years? hello.jpg is positively vanilla by modern standards. People nowadays link you to 2girls1cup, 3guys1hammer, SWAP.AVI, Pain Olympics, anythingatall.on.nimp.org, cp, beheadings, mutilations, massacres, cat burnings, witch burnings... If you're still thinking of good old goatse as the worst thing in the world, wow. Go and hang around on the Russian chans, you'll find what you describe has long since come to pass.
Well, clearly you've never had a run-in with the complaints department of the Sirius Cybernetics Corporation.
Eh? I thought we were talking about Radiohead here.
Well, if you have a problem with 'share and enjoy', I suppose you'll just have to go stick your head in a pig.
Plotting only the time journeys that made it onto TV is more than enough of a job. Exploring the rest of the timey wimey ball... well, my monitor has only a two-dimensional display.
Certainly this is unnecessary if we're postulating superintelligent machines perfectly capable of redesigning themselves on the fly to meet whatever situations they encounter. But the road to a Culture GSV is a long one. You might well begin with a swarm of rather dumb self-replicating probes with very limited capabilities - I mean, somewhere down the line there must have been an intelligent designer, and so the progenitor robot would have had to be incredibly basic. But if you give them the means to exchange design details with each other over long distances - this worked, this didn't - then eventually you might indeed have a horde of sexy, sexy von Neumann machines, all procreating and evolving their way to becoming a galaxy-spanning intelligent race in their own right.
And anyway, even if the robots do not exchange design data - if they don't have sex at all - well, most living things on Earth don't have sex either. Doesn't disqualify them from the 'life' category.
No, cash behaves fairly classically. It's the rest of the economy that's quantum. For example, your house might or might not be worth $200,000. You won't know for certain until you try to sell it.
That was created by HAARP as well. As was the Haiti earthquake. And the Indian Ocean tsunami.
Bloody versatile device, all things considered.
There was Balance of Power which was a Cold War sim; you'd normally play that until you got sufficiently pissed off at the endless manufactured crises and then go and play Bravo Romeo Delta until the planet glowed. Myself I was quite fond of Central Intelligence where you were the guy in charge of organising a revolt in some banana republic or other; it had a wonderful simulated society and economy, you'd graduate from organising student leaflet campaigns to stealing explosives from quarries and using them in your freedom fighting to arming and training guerrillas in the woods. Lovely idea, shame about the dreadful interface.
That doesn't mean your hard disk is anything approaching the complexity of a human brain. The amount of information encoded in a neural network is far, far more than the number of neurons in it! 100 billion neurons, each with something like seven thousand connections to other neurons. So more like 700 trillion connections. If each neuron is numbered using a 37-bit ID (enough for 100 billion) then to list a neuron's connections takes 7000 times 37 bits = ~32k. Multiply by 100 billion, that's three petabytes.
Then represent excitatory versus inhibitory (1 bit per neuron? Or do we have to allow grey areas?), activation potentials (continuous? What's the range, and how granular do we need it?), and any relevant hormones or drugs or other chemistry currently in operation on the neural network, and you're looking at some big numbers. Big, but not beyond contemplation: Google must be getting towards that size, the Internet probably got there years ago. We might be able to model the brain as a neural network before too long. That's probably where we find out that all that gooey chemistry stuff that computer scientists don't like to think too much about actually mattered more than we thought...
You would think so, wouldn't you? But it seems that drivers for my USB wireless adaptor are not to be had for anything later than Windows XP, though it's only a few years old. Manufacturer not supporting it any more. In Ubuntu it just works, just as I expected, but to get it working in Windows I had to find out the chipset it used and try a whole bunch of unsupported driver files downloaded from dubious websites until I found one that worked.
I consider myself a reasonably advanced computer user, but on this showing Windows isn't ready for the mainstream desktop. Can you imagine expecting Grandma to handle that sort of mess? No way. The mainstream will stay with Linux and leave Windows to the nerds, geeks and hobbyists who are into the whole 'closed-source' movement.
That wouldn't falsify evolution. Consider the classic Just-So story of speciation. Let there be species X which lives throughout country C. Sea levels rise and the centre of country C is flooded, splitting it into countries A and B. In the new climate, life is easy in country A, but very hard in country B. So the lineage of species X in country A changes very little over the next few million years, while the lineage in country B adapts to its great hardship and changes into something we would call species Y, which we'll suppose is a badass tough variant.
Now let sea levels fall and country C be reunited. Species X and Y are now in competition with each other, and Y wins handily, driving X into extinction across the whole country in very short order.
Millions of years later we dig in what was once country A, and we find fossils of species X and Y. What do we see? Species X was replaced by Species Y - an obviously related successor - almost overnight!
Is that the current name for them? I suppose it was only a matter of time before they moved into the consultancy racket...
The core heat source is actually secondary to this. More massive stars are hotter because they are more massive - the sheer mass of gas that collapsed from a nebula to form such a star provides huge amounts of energy by gravitational accretion. Then, because of being so hot to begin with, they burn fuel faster than their smaller, cooler cousins, and that keeps them hot.
So the largest stars are the ones where the equilibrium is found at a point where the atmosphere is large, sparse and cool, and hence red. This isn't such a star. In a super-hot star like this the radiation pressure comes to predominate over gas pressure, and that has a tendency to blow any surrounding gas clean away. It's too heavy, and, as you say, too hot, and very unstable. So it can't form a well-behaved convective envelope around itself and become a red hypergiant. It remains a very massive, very hot, and very luminous star, but it never troubles the list of the largest stars known.
It's blue, therefore it's hot, therefore it's dense, therefore it's (comparatively) small. VY Canis Majoris would be much larger, even if not so massive - and cooler, and therefore red. Indeed, notice the diagram in the article, showing this star as compared to the Sun. The Sun is visible on the diagram. This would not be the case with VY Canis Majoris!
It's all gas law really, just like in high school physics. pV = nRT. When a star contracts, it heats up; when it expands, it cools. As a supergiant's core switches on and off as it works its thermonuclear way up the periodic table, it may inflate and deflate over and over again.
Just to be sure you're not a crank: could you explain to us what "Mike's Nature trick" was, what was in "decline" and how it was hidden? I mean, you're not just regurgitating memes from denialist blogs, right? You do actually know what you're talking about, right?
Our production of water vapour isn't all that big an issue. There's a given amount of water vapour that can exist in the air, which depends on local pressure and temperature. If for some reason there's too much around, it rains or forms dew. If there's too little around, water on the ground evaporates until equilibrium. There's already a huge amount of water available, so if the Earth's atmosphere was capable of taking up significantly more water vapour, it would have a source from which to take it, human industry or no. On the largest scale, then, we're not adding water vapour to the atmosphere, where it would affect the greenhouse effect very significantly; we're adding liquid water to the ocean, where it makes very little difference at all.
Carbon dioxide on the other hand is a trace gas in the Earth's atmosphere. While the industrial output of water won't affect the ocean noticeably, our output of carbon dioxide has very definitely increased the concentration of that gas in the atmosphere. Will the plants not absorb it? Possibly; carbon dioxide is good for plant life. But the exchange is much slower here. Water rains out to the ocean in an hour or two, but a great tree takes decades to grow and absorb a comparable mass of carbon. And the proportions are very different. Estimates are that we've added something like 35% to the pre-industrial levels of carbon dioxide; that would be fine if the plant biomass increased by the same proportion, so that our additional carbon was locked up in the form of wood rather than loose in the air. 35% increase in plant biomass is a lot to ask. Especially when you're busy bulldozing rainforests for cattle grazing.
Think wearables. Batteries are heavy and inefficient and need periodic access to a power supply to recharge; that limits how long you can go on using your various toys, especially if you're way out in the wilderness on some mission or other. If you can draw power directly from the wearer's body, then you can greatly improve the usefulness of his electronic augmentations.
Are you going to link us to a satellite image of this wall, or are Google in on the conspiracy too?
There was an interesting conspiracy theory put about a while back that Taranis was only incidentally a scary UAV project - that its real purpose was technology laundering. BAE have had access to American stealth technology through the JSF project; Taranis is a stealth aircraft supposedly developed independently. So if ten years from now BAE start selling stealth drones to every sheikh with a few billion quid in his trousers, they'll say 'oh, this technology is derived from the Taranis project. Nothing to do with the American secrets we were shown while working on the F-35, no, not at all...'
BusyBox v1.10.2 (Debian 3:1.10.2.legal-1osso30+0m5) built-in shell (ash)
Enter 'help' for a list of built-in commands.
~ $ sudo gainroot
Root shell enabled.
BusyBox v1.10.2 (Debian 3:1.10.2.legal-1osso30+0m5) built-in shell (ash)
Enter 'help' for a list of built-in commands.
/home/user #
Read 1984 closely enough and you'll see this in effect. The despairing ending which everybody remembers is the future imagined as a boot stamping on a human face forever. But what was the first example we saw of the Party's information control in action? Why, it was our hero Winston Smith editing the figures for boot production.
For example, the Ministry of Plenty's forecast had estimated the output of boots for the quarter at 145 million pairs. The actual output was given as sixty-two millions. Winston, however, in rewriting the forecast, marked the figure down to fifty-seven millions, so as to allow for the usual claim that the quota had been overfulfilled. In any case, sixty-two millions was no nearer the truth than fifty-seven millions, or than 145 millions. Very likely no boots had been produced at all. Likelier still, nobody knew how many had been produced, much less cared. All one knew was that every quarter astronomical numbers of boots were produced on paper, while perhaps half the population of Oceania went barefoot.
Keep stamping, Big Brother. The day's coming soon when you'll run out of boots.
Sounds a lot like Dragon Age. Every monster levels along with you; advance your skills enough and it tells you their level on the mini-map. Every single mook in the room, all the same level, all one level below you.
Massively pissed me off, because it takes away all the 'omg cool now I kick ass!' reward of levelling up. I don't mind the monsters scaling up to harder kinds of monsters; as I levelled up further in Fallout 3 I randomly encountered yao-guai and deathclaws more and more often and that was fine. And I don't mind the game scaling the difficulty up by throwing monsters at me in greater numbers; I feel really good about levelling up when I massacre dozens of a monster type that used to give me a hard time one on one. But I can't accept that the exact same goons I was slaughtering back at the start of the game have all uniformly levelled up alongside me.
Maybe, but this is still surprising. Measure a grape with a metre rule, you should still be able to say 'it's between a centimetre and a centimetre and a half.' Measure it with a micrometer, and you'd expect to see a result like 'It's 1.2144 centimetres.' If the micrometer instead measured the grape at 0.7218 centimetres, well, you'd be puzzled. First of all, of course, you'd check you were doing it right. You'd examine your micrometer and make sure you were operating it correctly. You'd recheck how you measured it with the metre rule - is it zero from where the number is printed, or from the edge of the ruler, is the ruler maybe worn down at the edge?
But if all that checked out and you still had this discrepancy, you'd start to wonder if your ruler and your micrometer were really measuring the same units.
Hence the suggestion of new physics. Theoretically the muon should act like a heavy electron - interacting with the proton in just the same way, so that it can be used as a more precise probe on the size of the proton. It would be the micrometer to the electron's metre rule. If it doesn't - if the muon interacts with the proton in some unexpected way so as to throw the measure off - then we've discovered something beyond the standard model.
There are quite a few indications that there is physics beyond the standard model - heavy neutrinos, the abundance of matter over antimatter, the dark matter - and so if we can add this to the list then maybe it can help pin down just what sort of a new theory we're looking for. We've got to have something to do once the good people of Geneva finally hammer us out a Higgs, after all :-)