This method is currently only for embryology studies. They are only able to track each cell while it is being observed. There are no tracking devices placed into these cells.
What you are proposing would be roughly 100 orders of magnitude more complex. In addition to each cell you'd have to track each synapse connection, which ranges in the 100s of billions.
The only way I could see 'mind uploading' work is if there was some MRI-like machine that could resolve down to the molecular level and was able to take a snapshot of every molecule in its orientation/current velocity. Then, assuming some magical hyper-quantum (whatever) computer could store and then presumably simulate what would happen 'next' with such a snapshot...Then you'd be essentially modeling reality/matter on a quantum scale, and that would be....cool.
You do realize that those risks are miniscule compared to the health complications from pregnancy and birth, right? There are also multiple non-hormonal methods to birth control as well.
It's all well and good to not be into BC, but don't pretend its primarily for health reasons.
I don't give a shit about C02 emissions. It's stupid to assume that the world would give a shit, even if some other countries managed to. Honestly, I'm more pissed off about the other effects of burning coal (have you checked your mercury levels lately?) and fracking.
I'm also not suggesting the earth dies. I'm suggesting we/our economy/culture very may well. The earth doesn't give a shit, it's seen plenty hotter and plenty colder. It's humans that are fucked, well, keeping our pop above 7 billion anyway.
In terms of being a 'far-left' radical...I've hung out with that crowd. They are just as dumb and backwards as the far-right (surprise!). Now, my political philosophies can certainly be considered radical, but I bet not in the way you think. In brief: Computational Socialism (gasp!! The S word!) made viable through modular GW-scale lead-cooled fast reactors.
If your philosophy doesn't involve trying to raise the whole world (countries/borders are inhumane and out of date) out of poverty with the end goal of a stabilized world population...well then...fuck you.
When the hell is the debate going to shift from 'IF' to 'Now what the fuck are we going to do?'
Miami is fucked. NYC, unless they build some wall, is fucked. So where are the debates on how to build the containment walls? Or the storm-proofed shelters? Or the projected increase in FEMA budget?
Or, you know, we could spin our wheels yet again bleeting on and on if humans caused this pickle or not. It doth not matter.
A few months ago I was trying to look up the latest figures on the Ebola outbreak. All I could find through most news cites were BS articles that wasted 3/4 of their space on the background of what Ebola is and where Sierra Leone is. In my searching I stumbled across a Daily Map Archive from the EU commission.
Each day they bring a new map with news from around the world. Succinct news, showing where it is geographically, with actual figures and no other bullshit. Granted, it's nearly all bad news...but I've learned so much about events around the world that the major news outlets don't cover (too much time covering important things like Brazil Exploitation Theatre or the latest breaking news out of Hollywood).
The variable you are neglecting to consider is transmission losses.
Look into super-conducting cables. So far, only Germany has managed to get a 1km long super-conducting cable in place for a still tiny % of the energy necessary to make this global grid work in the way you're talking about.
The DFR has a negative void coefficient...More heat == less reactivity, you actually have to actively pump the coolant loop to get it up to 1.5GW, otherwise it's in a very inefficent passive mode. No heat and the lead solidifies around the fuel loop.
Of course nuclear power doesn't seem viable if you look at it's current state! All the reactors we have now were designed in the '50s. They use water as a moderator (ie thermal neutrons) and coolant, requiring complex assemblies of fuel rods and control rods. Thermal neutrons also cause way more incidental nuclear waste (irradiated steel cores, wires, etc). They use
It doesn't have to be that way! The most recent design for a fast reactor seems to be the most legitimate and feasible new design to date. It's called the dual fluid reactor.http://dual-fluid-reactor.org/
It separates the fuel loop from the coolant loop. This has numerous advantages. You can alter the rate of either independently to best suit the current need. The coolant used isn't liquid sodium. Which, aside from not playing nice with air and water has a low boiling point and high neutron cross section. This reactor uses liquid lead as its coolant. Its so stable and resistant to radiation that the coolant loop can be piped into the non-containment area for power generation. In the papers I've read they mention coupling it to an MHR generator then a super-critical water loop en route to turbines.
It is engineered to run at 1000C, which at that temperature, makes it possible to do pyro-chemistry with electrodes to filter out the daught products in line with the fuel loop. The separated daughter products are then sent to a passive cooling chamber (the super short lived ones are hooked up to the coolant loop where it contributes to energy production) where they remain hella hot for a few hundred years. Then they become inert. There are supposedly lots of valuble metals after about 90 years that make the waste itself a hot commodity.
The reactor is designed to be a 2 meter cube, for simple production there are no bowed parts, only 90 angles with straight pipes. A reactor this size can put out 1500MW thermal.
Couple this with the recent advancement of laser-based particle accelerators and you wouldn't even have to start with enriched fuel! The power required to drive the laser would be
As Elon Musk would say (probably): Seriously guys, it's the 21st century, act like it!
Nobody has brought up an obvious (to me I guess) consideration.
How would 'other 2/3' perceive the internet / computers in general in their cultural context.
Imagine a refugee camp where war torn peoples flock across a border and are placed into a predesignated area. Now (if it was Turkey*) they'd have all the basic amenities, food, shelter, water, plumbing...tv. What they are lacking (as far as I can tell) is any pervasive computer/internet. Consequently, boredom is one of the biggest problems in these refugee camps.
What if they all had the internet though?
What would they do with something of that magnitude that they've never had before? Would it become self-organizing? Would they require classes? If so, how in-depth? What if the literacy rates were low? Could small pictographic games still provide entertainment? Could MMOs (or whatever) provide a sense of purpose, if only virtual, to somebody's life?
Now take that microcosm and multiply it by 'the other 2/3'.
We need to approach this as a legitimate problem that is capable of being solved through research and refinement.
" If anything, the liquid fuel simplifies the process. The fission products are continuously removed so that they do not build up, and can be stored safely. "
The second sentence completely contradicted the first. There is nothing simple, or even established yet, about continuously removing fission products from a highly caustic and radioactive liquid that is a few thousand degrees Celsius.
If we're talking about human error with regards to nuclear safety this makes even less sense! The amount and frequency of re-processing for LTFRs raises the potential for error significantly.
No, we need 'one stop shop' type reactors buried as columns in the ground that, once running, continue to do so without human intervention for decades. When the reaction is done, it also becomes the long-term storage facility.
Using an accelerator (combined with a spallation target) causes fission events...it creates 9x more energy than the accelerator consumes. Belgium is currently constructing a pilot plant.
Slashdot Mirror
No.
This method is currently only for embryology studies. They are only able to track each cell while it is being observed. There are no tracking devices placed into these cells.
What you are proposing would be roughly 100 orders of magnitude more complex. In addition to each cell you'd have to track each synapse connection, which ranges in the 100s of billions.
The only way I could see 'mind uploading' work is if there was some MRI-like machine that could resolve down to the molecular level and was able to take a snapshot of every molecule in its orientation/current velocity. Then, assuming some magical hyper-quantum (whatever) computer could store and then presumably simulate what would happen 'next' with such a snapshot...Then you'd be essentially modeling reality/matter on a quantum scale, and that would be....cool.
You do realize that those risks are miniscule compared to the health complications from pregnancy and birth, right? There are also multiple non-hormonal methods to birth control as well.
It's all well and good to not be into BC, but don't pretend its primarily for health reasons.
Whales:...what's that sonny?
I SAID I'M SORRY!!!!!!!
Poor bastards can't hear a damn thing ever since we started with our sonic blasters.
I wonder if this effect could be used therapeutically. Have the biofeedback and all, but maybe provide a nudge/bias towards stress relief...
But then, that's not much better than putting crystals over a client's (rube's) body to let the negatons out.
Fair enough. If another 'Sandy' hits NYC within the next 5 years, I'm with you.
Way to prove my point!
I don't give a shit about C02 emissions. It's stupid to assume that the world would give a shit, even if some other countries managed to. Honestly, I'm more pissed off about the other effects of burning coal (have you checked your mercury levels lately?) and fracking.
I'm also not suggesting the earth dies. I'm suggesting we/our economy/culture very may well. The earth doesn't give a shit, it's seen plenty hotter and plenty colder. It's humans that are fucked, well, keeping our pop above 7 billion anyway.
In terms of being a 'far-left' radical...I've hung out with that crowd. They are just as dumb and backwards as the far-right (surprise!). Now, my political philosophies can certainly be considered radical, but I bet not in the way you think. In brief: Computational Socialism (gasp!! The S word!) made viable through modular GW-scale lead-cooled fast reactors.
If your philosophy doesn't involve trying to raise the whole world (countries/borders are inhumane and out of date) out of poverty with the end goal of a stabilized world population...well then...fuck you.
When the hell is the debate going to shift from 'IF' to 'Now what the fuck are we going to do?'
Miami is fucked. NYC, unless they build some wall, is fucked. So where are the debates on how to build the containment walls? Or the storm-proofed shelters? Or the projected increase in FEMA budget?
Or, you know, we could spin our wheels yet again bleeting on and on if humans caused this pickle or not. It doth not matter.
SHOCKED!
A few months ago I was trying to look up the latest figures on the Ebola outbreak. All I could find through most news cites were BS articles that wasted 3/4 of their space on the background of what Ebola is and where Sierra Leone is. In my searching I stumbled across a Daily Map Archive from the EU commission.
Each day they bring a new map with news from around the world. Succinct news, showing where it is geographically, with actual figures and no other bullshit. Granted, it's nearly all bad news...but I've learned so much about events around the world that the major news outlets don't cover (too much time covering important things like Brazil Exploitation Theatre or the latest breaking news out of Hollywood).
Thine linken: http://ercportal.jrc.ec.europa...
Coincidentally, their map today is of that very same Ebola outbreak. Things are not looking good.
I feel the same way about dollar general. jk! that shit is blight!
The variable you are neglecting to consider is transmission losses.
Look into super-conducting cables. So far, only Germany has managed to get a 1km long super-conducting cable in place for a still tiny % of the energy necessary to make this global grid work in the way you're talking about.
1/3 Local nukes+1/3 wind+ 1/3 solar > coal
By guided tour they mean 11 pictures of piles of trash and 2 pictures of the outside of the plant. From a distance.
Seriously, where are the shots of the reactors? The end product?
What solvents does it use? Is it done in a vacuum?
The DFR has a negative void coefficient...More heat == less reactivity, you actually have to actively pump the coolant loop to get it up to 1.5GW, otherwise it's in a very inefficent passive mode. No heat and the lead solidifies around the fuel loop.
Of course nuclear power doesn't seem viable if you look at it's current state! All the reactors we have now were designed in the '50s. They use water as a moderator (ie thermal neutrons) and coolant, requiring complex assemblies of fuel rods and control rods. Thermal neutrons also cause way more incidental nuclear waste (irradiated steel cores, wires, etc). They use
It doesn't have to be that way! The most recent design for a fast reactor seems to be the most legitimate and feasible new design to date. It's called the dual fluid reactor. http://dual-fluid-reactor.org/
It separates the fuel loop from the coolant loop. This has numerous advantages. You can alter the rate of either independently to best suit the current need. The coolant used isn't liquid sodium. Which, aside from not playing nice with air and water has a low boiling point and high neutron cross section. This reactor uses liquid lead as its coolant. Its so stable and resistant to radiation that the coolant loop can be piped into the non-containment area for power generation. In the papers I've read they mention coupling it to an MHR generator then a super-critical water loop en route to turbines.
It is engineered to run at 1000C, which at that temperature, makes it possible to do pyro-chemistry with electrodes to filter out the daught products in line with the fuel loop. The separated daughter products are then sent to a passive cooling chamber (the super short lived ones are hooked up to the coolant loop where it contributes to energy production) where they remain hella hot for a few hundred years. Then they become inert. There are supposedly lots of valuble metals after about 90 years that make the waste itself a hot commodity.
The reactor is designed to be a 2 meter cube, for simple production there are no bowed parts, only 90 angles with straight pipes. A reactor this size can put out 1500MW thermal.
Couple this with the recent advancement of laser-based particle accelerators and you wouldn't even have to start with enriched fuel! The power required to drive the laser would be
As Elon Musk would say (probably): Seriously guys, it's the 21st century, act like it!
I would give my left nut to emigrate to The Netherlands. Maybe, just maybe, it's easier said than done?
My kingdom for mod points.
In the documentary, you were definitely made out to be the 'bad guy'. I'm sure reality was a bit more complicated than what the movie portrayed.
Have you and the challenger kept in touch? Are things more amicable than they were back then?
RTFA (I know, I know) -These have much higher levels of vitamin A
What would they do with the internet once they got it?
Nobody has brought up an obvious (to me I guess) consideration.
How would 'other 2/3' perceive the internet / computers in general in their cultural context.
Imagine a refugee camp where war torn peoples flock across a border and are placed into a predesignated area. Now (if it was Turkey*) they'd have all the basic amenities, food, shelter, water, plumbing...tv. What they are lacking (as far as I can tell) is any pervasive computer/internet. Consequently, boredom is one of the biggest problems in these refugee camps.
What if they all had the internet though?
What would they do with something of that magnitude that they've never had before? Would it become self-organizing? Would they require classes? If so, how in-depth? What if the literacy rates were low? Could small pictographic games still provide entertainment? Could MMOs (or whatever) provide a sense of purpose, if only virtual, to somebody's life?
Now take that microcosm and multiply it by 'the other 2/3'.
We need to approach this as a legitimate problem that is capable of being solved through research and refinement.
* http://www.nytimes.com/2014/02...
man, that went into the weeds fast.
I propose 'The Nuance' party!
Where does it stand on issue X?
It's complicated...check out this website that clearly lays out both sides of the issue and presents a conclusion with cited evidence.
I can dream, right?
How about: If fetus can survive without the mother.
I always considered that to be a reasonable rule of gauging when it's 'too late' to perform an abortion.
Taking 'pain' into the equation just muddies everything up. Would you then outlaw circumcision? That's pretty f'n painful!
" If anything, the liquid fuel simplifies the process. The fission products are continuously removed so that they do not build up, and can be stored safely. "
The second sentence completely contradicted the first. There is nothing simple, or even established yet, about continuously removing fission products from a highly caustic and radioactive liquid that is a few thousand degrees Celsius.
If we're talking about human error with regards to nuclear safety this makes even less sense! The amount and frequency of re-processing for LTFRs raises the potential for error significantly.
No, we need 'one stop shop' type reactors buried as columns in the ground that, once running, continue to do so without human intervention for decades. When the reaction is done, it also becomes the long-term storage facility.
Using an accelerator (combined with a spallation target) causes fission events...it creates 9x more energy than the accelerator consumes. Belgium is currently constructing a pilot plant.