Nanotech will become the next science breakthrough?

  • Thread starter Greg Bernhardt
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In summary, Steven Spielberg's think tank met to discuss what the future might hold fifty years from now and they all came up with the same conclusion- that nanotechnology will be the next big breakthrough.
  • #1
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What do you think besides nanotech will become the next science breakthrough?
 
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  • #2
Clues ?

Designing the Future

For long-term scenarios, some of the more realistic technologies profiled in Minority Report were based upon ideas from a multidisciplinary think tank of scientists from MIT Media Lab and other leading institutions:

" I thought it would be a good idea to bring some of the best minds in technology, environment, crime fighting, medicine, health, social services, transportation, computer technology and other fields into one room to discuss what the future a half century hence would be like. "

Steven Spielberg


http://www.nc-studios.com/reviews/minority/images/poster.jpg [Broken]
 
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  • #3


Originally posted by Greg Bernhardt
What do you think besides nanotech will become the next science breakthrough?

The discovery of the T.O.E.

Like Prof. Kaku has mentioned numerous times in his books (particularly in Visions), discovering the theory of everything will finally move us from learning the rules of the Universe to mastering them.

Michio Kaku once used the illustration of a child watching two adults play chess. The child may get a basic idea of the rules, by watching the games carefully. However the child can never master the game without a complete set of rules and an understanding of the fundamental nature of the game itself (which is quite separate from the rules of movement, as anyone who plays chess regularly knows).

With the Theory of Everything, we will have a complete set of rules, which will enable us to finally start "mastering the game".
 
  • #4


Originally posted by Mentat
The discovery of the T.O.E.

Like Prof. Kaku has mentioned numerous times in his books (particularly in Visions), discovering the theory of everything will finally move us from learning the rules of the Universe to mastering them.

Michio Kaku once used the illustration of a child watching two adults play chess. The child may get a basic idea of the rules, by watching the games carefully. However the child can never master the game without a complete set of rules and an understanding of the fundamental nature of the game itself (which is quite separate from the rules of movement, as anyone who plays chess regularly knows).

With the Theory of Everything, we will have a complete set of rules, which will enable us to finally start "mastering the game".

So many years hearing it... the idea of an unified theory began when HC Oersted found the experimental relation between electricity and magnetism at 1820 as you know... and many times the scientists have believed to be close to it, before 1900! and some contemporaries big scientists predicted that before 2000 it would be developed... Maybe now we are so ingenuous than in 1900...

sometimes I think it will be a kind of Grial, impossible to find... anyway the other times I really think we can do it!, so let's see...
 
  • #5
Being an applied physicist I am inclined to think that technological breakthroughs rather than theoretical breakthroughs would tend to have more of an impact on our lives, for example, Maxwell's equations may have given us the fundamental principles from which to fabricate computer chips, but it was a lot longer before we actually made them and computers began to revolutionise Western society (It comes down to what you define as a breakthrough I suppose).

In my humble opinion, the next major breakthrough will be in the field of Optical/Quantum computing (One of them, I am inclined to think that Optical computing is a little more feasible), which will spawn a world wide computer network like the internet only vastly more superior.

I do not doubt however that a T.O.E. if discovered, would be a massive intellectual acheivement, and just as significant as any technological breakthrough.

That's my opinion, Claude.
 
  • #6
Originally posted by Claude Bile
Being an applied physicist I am inclined to think that technological breakthroughs rather than theoretical breakthroughs would tend to have more of an impact on our lives, for example, Maxwell's equations may have given us the fundamental principles from which to fabricate computer chips, but it was a lot longer before we actually made them and computers began to revolutionise Western society (It comes down to what you define as a breakthrough I suppose).

In my humble opinion, the next major breakthrough will be in the field of Optical/Quantum computing (One of them, I am inclined to think that Optical computing is a little more feasible), which will spawn a world wide computer network like the internet only vastly more superior.

I do not doubt however that a T.O.E. if discovered, would be a massive intellectual acheivement, and just as significant as any technological breakthrough.

That's my opinion, Claude.

Yea, the technological breakthrough surely will appear at nanotechnology, biotechnology, information technology and cognitive science, where some theoretical basis is done (where the optical, quantum or genetic computing are an example, as you say). The power of these technologies are infitite!
 
  • #7
All I need is a tall ship ! :smile: A starship that is ! :wink:

So bring on those warp drives so that I could get away from this planet
and have some real fun...
 
  • #8
Psychology. The progression of the sciences thus far has been due to the applications of brute force, intuition, and intellect. What has been missing all along is a viable cognitive and behavioral understanding of what underlies all this progress in the first place. Currently the amount of raw data is doubling roughly every year and this rate is not expected to change. There is only so fast we can humanly collect information, only so fast we can absorb information, and no matter how educated and financed our populations, only so fast that we can absorb information and put it to productive use. The single largest stumbling block in these continuing efforts is ourselves.

This is really a no-brainer. Humanity is now its own worst enemy, and the principle of "my enemy's enemy is my friend" (Frank Herbert) no longer applies. Many expect sometime in the near future a radical organic reorganization of the sciences among other things is inevitable, but without a firm understanding of ourselves as individuals, as social organizations, and as a species such a move would be impossible. Already the signs that this is occurring are clear, and sometime within the next hundred years I suspect the science will become a mature one.
 
  • #9
Complexity of Information

I wasn't sure whether to post this or not, but in regards to the future, how would we write the programs that would deal with the nature of consciousness? If such a TOE, is to exist, it must some how explain this?

http://superstringtheory.com/forum/dualboard/messages14/214.html [Broken]

If we understood the diagrams and logic demonstrated here, what value could we have assigned A(child)B(adult)C(Parent)

If A is represented by O

If B is represented by O

If C is represented by O

How would you define the actions, when All three overlap, or two over lap and one remains by itself?

Probabilsitic detrminations under statistical analysis, can be detailed in Fuzzy logic to have recognized that three factors must be consider here, that under the heading of true or false, the the third result, is the adult?

The adult then in the calculation would have been detailed, under this heading.


In cryptology the simultaneous function is realized in this interaction?

Sol
 
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  • #10
To Go Beyond!

Human mental development most certainly is emerging beyond dimensional
bounderies within the mind. Just how is this possible? I believe that it is
a natural process of the brain to expand it's horizon towards unexplored
areas of thought, just like a seed which posses the capacity on becoming
a mass much larger then it's beginning origin through a process of development
step by step, building on the previous steps gathering more mass as it progresses.
Half way on it's development we can not say it has fully matured, thus in some
way this illustrates the brain/mind development. T.O.E.? there's more!
 
  • #11
I'm inclined between two options:
The discovery of some form of lifeform in Titan
or
the discovery of some new particle in the LHC that is being constructed between France and Switzerland (the Higgs boson?)
 
  • #12
Junk DNA isn't

Much (most?) DNA is thought to be "junk", in that it appears not to code for any gene or express any protein.

The next big 'science breakthrough' (Greg's question) may well be the discovery that it isn't "junk" after all, but plays a very important role in ... what? We can't yet know!
 
  • #13
That makes little sense,mostly junk DNA, I doubt the scientist working on it said that, probably just too complicated to understand at this time and taken out of context to increase sales of some magazine.
Life extension will probably be made so by brain transplantation into cloned/brainless bodies.
Neuroelectronic interfaces have already been found to work for little things like moving a mechanical finger if I remember right, and you can see where that is going I give it 20 years before mass commercialization in whatever applications they can think we need it for.
Then you've got all the vitual reality games that will grow into a kind of second world in about 10 years and where I'll be most of the time.
I would predict that the TOE will be discovered(publicly) in a few years to have been discovered about 100 years ago or so. That a BEC is a miniature black hole and children are potentially the smartest humans on the planet until we start teaching them things.
I think nanotechnology will be great with medical applications but the grandest discoveries are likely to be in psychology or philosophy or taking control of our own brains.
And of course space travel, free energy, and true world democracy must all happen within the next 50 years but not because I'm good at predicting but because if I predicted these wouldn't happen in my lifetime then where's the motivation to try to make them happen? This is why I think fictional science is just as important as science, in the past they might have called it delusional thinking or even being possessed by deamons.
 
  • #14
That makes little sense,mostly junk DNA, I doubt the scientist working on it said that, probably just too complicated to understand at this time and taken out of context to increase sales of some magazine

No really. DNA is made up of two kinds of chemical, strings of bases, and strings of other stuff. The strings of bases can be interpreted as coding for strings of amino acids, i.e. proteins, by the genetic code. The other stuff can't, and is called junk DNA. In the human genome, most of the DNA is this junk stuff, which in some cases they are starting to understand as switches for turning protein synthesis on and off during the development of the embryo.
 
  • #15
Weird, shows what I know.
 
  • #16
dare I suggest perpetual energy and/or motion devices.

Why?

Because we desparately need it/them.
 
  • #17
Originally posted by scott_sieger
dare I suggest perpetual energy and/or motion devices.

Why?

Because we desparately need it/them.


P14L.jpg


Perpetual machines are like try to find where it all begins. Maybe such a self memorizable loop can be created, where youth, will never loose the strength of it's first copy?

Sol
 
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  • #18
I think that besides nanotecnology there will be a discovery of lifefrom on Titan.
Just curious what are your people's iq?
Oh, to sol1: I luv the pic. Escher is pretty cool huh?
 
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  • #19
Junk DNA Indeed!

Human Sperm In Dramatic Decline Scientists Warn
By Aaron Derfel Montreal Gazette
http://www.montrealgazette.com 7-3-1

Scientists from around the world are alarmed by a
dramatic increase in genetically damaged human sperm -
a trend that is not only causing infertility in men,
but also childhood cancers in the offspring of those
who can reproduce.

It's now estimated that up to 85 per cent of the
sperm produced by a healthy male is DNA-damaged, a
leading authority on the subject revealed yesterday at
an international conference being held in Montreal.

"That's very unusual," said John Aitken, head of
biological sciences at the University of Newcastle in
Australia.

"If you were to take a rat or a mouse or a rabbit,
usually more than 80 per cent of their sperm would be
normal."

For the last 20 years, scientists have known about
declining sperm counts. But researchers are now
learning that the quality of human sperm is steadily
eroding, and might be causing birth defects as well
as brain cancer and leukemia in children.

Abnormal sperm is also being blamed for a global
increase in testicular cancer - a disease that strikes
men in their 30s. Scientists believe that when a
DNA-damaged sperm fertilizes a woman's egg, it can
trigger a mutation of a key gene in the embryo.

And even if men today can reproduce, their damaged
sperm might lead to infertility in their male progeny,
Aitken suggested. "You're likely to see lots of
diseases that are related to poorer semen quality."

Scientists suspect a wide range of environmental
causes for the abnormal sperm - from exposure to
pesticides and heavy metals to electromagnetic
radiation.

"We're all exposed to 10 times more electromagnetic
radiation than our forefathers," Aitken said. "It's
all the electrical appliances we use, including
microwave phones."

There is a consensus in the scientific community
that men who smoke cause damage to their sperm, and
that this might be responsible for childhood cancers.
"If you are a man and you smoke, your semen profile
won't be obviously affected," Aitken said. "You'll
still have lots of sperm swimming around and you'll be
fertile. But the DNA in your sperm
nucleus will be fragmented."

The average ejaculate of human sperm contains 80
million spermatazoa, each genetically programmed to
fertilize a woman's egg. Scientists examining human
sperm have discovered that not only are sperm counts
on
the decline, but that the vast majority of sperm is
sluggish, poorly structured, their DNA fragmented and
that they generate a lot of cellular waste called free
radicals.

"Generally speaking, everything is bad with the
sperm," Aitken said.

Fortunately for most couples, it's the undamaged
or least damaged sperm that tends to fertilize the
egg.

As a result of increasing male infertility,
scientists have developed a new technique to help
couples conceive. It's called Intra-Cytoplasmic
Sperm Injection (ICSI). In the lab, a technologist
will take from the would-be father a single sperm, or
even a cell that is on its way to becoming a sperm,
and fertilize it in the test tube with the woman's
egg. The resulting embryo is then transferred to the
woman's uterus.

Dr. Keith Jarvi, of the University of Toronto-Mount
Sinai Hospital, said the ICSI technique has
revolutionized the treatment of male infertility. But
he wondered about the health outcomes of the ICSI
children.

That human sperm is of poorer quality than that of
other mammals is not surprising. The human species is
the only one that wears clothes, and healthy sperm
need to be kept a couple of degrees cooler than the
full body temperature. But clothing alone is not
responsible for the extent of abnormal human sperm,
Aitken argued.
 
  • #20
Originally posted by selfAdjoint
No really. DNA is made up of two kinds of chemical, strings of bases, and strings of other stuff. The strings of bases can be interpreted as coding for strings of amino acids, i.e. proteins, by the genetic code. The other stuff can't, and is called junk DNA. In the human genome, most of the DNA is this junk stuff, which in some cases they are starting to understand as switches for turning protein synthesis on and off during the development of the embryo.

On the one we have simple-to-complex evolution theories ergo it may be belived by some
that the junk DNA is left over from all the previous evolutionary, speicl-case, less complex animal incarnations before beoming the out-bred and more complex generalizing human.

On the other hand we have complex-to-simple --Bucky Fuller-- theories ergo it may be bleived by some that the junk DNA is there --from the begiining of our extraterrestial incursions/arrivals to this Earth-- as the seeds for any future survival based in-breeding scenarios to evolve into special-case less complex creatures to fill any and all enviromental niches.

As to what science breakthroughs will be truly great, i would first look to the history of such breaktrhoughs. As Bucky Fuller said with the bow and arrow analogy/metaphor(?) " the futher back we pull our bow-string the futher forward we can shoot our arrow. "

Fuller mentions the zero/cipher/zifra as one of the greatest metaphysical --i.e. notational mathematics-- breakthroughs and may only be equaled in physical technology by the silicon chip ergo binary/digital computations and abilities at a scale never previosuly belived or thought possible. Others might argue --with good cause-- the printing press was the greatest one.

Early Asian religous influences said to "go with the flow" as in "exceptance" follow the current where it takes you. Then humans learned to sail but now thy went with flow of the wind. Then they went against GOd by learning to sail into the wind by zig-zag tacking.

It may be that if humanity survives any current or looming "dark-age-like" scenarios that the the next truly great technlogical breaktrhough is only to be found currently in science fiction i.e. it is not realistically forseen.

And finally i must say that unless there is a breakthrough of concern for life/spirit as a whole by those in power then we are less likely to suvive any looming dark-age of terror as accompanied with disease, inequalities, abuse and injustice.
Rybo
 

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  • #21
A good site to check the future is http://www.zapfuture.com [Broken]!
 
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  • #22
i think that in the future they'll have genetically enginered humans, who are super strong and
super smart (working for the military prob), also artificial inteligence will have advanced greatly and computer technology. people will be able to travel into space for holidays, I am not sure about extra terestials though.
i don't think there will be any contact from "other beings" not within the next 50 years, mabey after that.
I don't think think the TOE will be discovered for years to come there prob will be a lot of scientific and mathamatical developments though.
 
  • #23
Social psychology

Originally posted by wuliheron
Many expect sometime in the near future a radical organic reorganization of the sciences among other things is inevitable, but without a firm understanding of ourselves as individuals, as social organizations, and as a species such a move would be impossible.
Hence, Raymond Cattell's expositions of Beyondism .

Code:
With substitution of rigorous research, objective measurement, models 
and calculation for the too long tolerated loose discussion of 
pretentious and bogus "theories" these immaturities of the social 
sciences will surely cure themselves. Unfortunately, the more serious 
disablement -- that of indiscriminately mixing value judgments with 
strictly scientific inferences and predictions -- is a more insidious 
disorder, likely to be eradicated more slowly. In fact, it is likely 
to require a deliberate extirpation, based on a re-education of 
students in the social sciences to a new discipline of thinking.
(from section 2.2 of A New Morality from Science)


-Chris
 
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  • #24


Originally posted by Greg Bernhardt
What do you think besides nanotech will become the next science breakthrough?

If by 'breakthrough' you mean accomplished, it is well past that. If by 'breakthrough' you mean accepted as fact. Never.

Science is based on the science it is based on. Only shocking resources from accepted sources is considered credible. As if acceptance in anyway dictates intellect.
 
  • #25
YES! ONE APPLICATION OF THIS IS IN THE FIELD OF MEDICINE. MOLECULAR SIZED ROBOTS WILL BECOME THE SUBSTITUTE FOR CHEMICALS THAT COMPOSES THE MEDICINE OR THE VACCINE. FOR EXAMPLE, WHEN TREATING THE CANCER PATIENT, IT IS THE MOLECULAR SIZED ROBOTS WILL FIGHT AND KILL THOSE CANCER CELLS IN OREDER FOR THE PATIENT BE SAVE.
 
  • #26
Originally posted by drag
All I need is a tall ship ! :smile: A starship that is ! :wink:

So bring on those warp drives so that I could get away from this planet
and have some real fun...

Hey Drag...wait for me, I want to go!
 

1. How does nanotechnology work?

Nanotechnology involves manipulating materials at the nanoscale, which is on the order of one billionth of a meter. Scientists use various techniques, such as microscopy and chemical reactions, to control and assemble these tiny particles into desired structures and devices.

2. What are some potential applications of nanotechnology?

Nanotechnology has a wide range of potential applications in various fields, including medicine, electronics, energy, and materials science. Some examples include targeted drug delivery, more efficient solar cells, and stronger and lighter materials.

3. Are there any risks associated with nanotechnology?

As with any new technology, there are potential risks associated with nanotechnology. These include the possibility of unintended environmental or health effects from exposure to nanoparticles. However, extensive research is being conducted to better understand and mitigate these risks.

4. How is nanotechnology being regulated?

In many countries, nanotechnology is regulated under existing laws and regulations for chemicals and other materials. However, there are also efforts to develop specific regulations for nanotechnology to ensure safety and responsible use.

5. When will we start seeing the impact of nanotechnology?

Nanotechnology is already having an impact in various industries, but it is still a relatively new field and many developments are still in the research and development stage. As technology advances and more applications are realized, we can expect to see a greater impact of nanotechnology in the near future.

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