Sunday, September 30, 2012

Science Concepts

Comment:  This is a brief in support for a series on UFOs. The science briefs are intended to prepare readers for the series and establish the view from a rational perspective.

In general, the scientific experience begins as one is somewhere strolling through the universe and stumbles upon some sort of Complex phenomenon or object. Out of curiosity, a scientific investigation commences to discern the Order behind the complexity. Once the investigation is completed, given the evidence and discovery, an ascertation is made about Origins of the phenomenon or object based on information already present. In short, the scientific experience deals with complexity and order only. Science is the rigorous effort to investigate complexity and order. Matters of Origin are for cosmology, philosophy, and theology. 

Scientist typically have personal cosmological, philosophical, and theological views. Sometimes those views affect the science of order and complexity. Michael Critchton points to this problem in his speech Aliens Caused Global Warming.  Additionally, claims made in cosmological, philosophical, and theological works can be reconciled with science to corroborate those claims as true or false. Hugh Ross and others attempt to perform this effort which will be discussed in the UFOs: An Alternative Look Series

The Scientific Language

Mathematics is the language of science. This results in some shared concepts about reality AND that which is NOT reality. On a high level, mathematics deals with four realms; the real, imaginary, complex, and surreal. 
    The Real Realm

    The natural realm that humans are the most comfortable with is the real. Mathematics attempts to describe the natural order through formulation or mathematical formulas. There are processes such as the Buckingham PI theroem used to take a natural phenomenon and describe them mathematically in an equation.

    The Imaginary Realm

    Radical negative one or the square root of negative one is the basis for the Imaginary realm. Radical negative one is most often symbolized as a "i". The usefulness of the imaginary is more for the engineer than scientist. Complex designs that are numerically engineered often occur in the imaginary realm and conformally mapped into the real for practical application. For example, the design of a transonic propeller that sweeps behind the shock wave. 

    The Complex Realm

    A combination of the real and imaginary compose the complex realm.  Again its usefulness is engineering more than science. 

    The Surreal Realm

    The surreal realm, being dream like or similiar to the real, is mostly conceptual and involves notions used in mathematical 'play' or foley to evaluate performance of formulas. Notions like infinite and randomness do not have a natural basis but are useful in mathematical foley. 
Chaos Theory

This theory is widely confused with the notion of randomness. Order and randomness are opposites of each other. Hence, randomness cannot have order or be described by mathematical formulas. Mathematics takes advantage of psuedo-randomness but has no means to formulate an equation for true randomness. A random event occurs only once and can never reoccur for a pattern would be established and this would become ordered. Order is structure, pattern, and basis of science. In science there is peer review and confirmation of the finds. Thus, scientific experiment relies on repeatable patterns to confirm the findings. Chaos Theory's fundamental hypothesis is that the universe is perfectly ordered but indeterminant. That is to remark that much of the universe is a roll of the dice or probabilistic. Rolling of a dice has only six possible outcomes of which one of them showing is a probability problem and not random.  Hence, the mathematical formula for probability is statisitically ordered. 

Chaos Theory makes use of mathematical formulas for patterns that occur naturally. The formulas that describe but do not predict natural patterns are called Fractals. The point Chaos Theory makes is that it denies randomness entirely. 

Physics Conventions

Many people hear about particles and strings in physics but have little grasp as to what these things really are all about. They are abstractions that represent a collective behavior physicists are observing. 

Particles, for example, in lay terms are generally thought of as soupy fields of local goop that collectively demonstrate a behavior. The physicists assign the concept of a particle to the field in order to conduct 'play' or foley with the behaviors. Consider love and hate. They are not tangible or empirically observable but we know they exist and have some general qualities. If love and hate are assigned to a love particle and a hate particle that resemble pool balls, we can assign the qualities of love and hate to the respective balls or particles. In this way, we can begin to explore their interactions.

Likewise, when dealing with harmonics and waveforms, they resemble an oscillating string. Recall as a child when you took a long rope or jump rope and shook the end such that a wave or bump travelled down the rope. This concept was taken and used in physics to describe the behavior of lightwaves and other waveforms.  The string is mathematical formulation of the harmonic state of the waveform.  Thus, there are innumerable strings possible. Edward Whitten used in M-Theory the most probable. 

The significance of strings is that under the Wave-Particle theory of light, somehow waveforms slam together in a process of compactness, that is still unknown, to form a particle. The Boson-Higgs particle is one attempt to understand this. The formation of a particle results in dimensionality of length, width, depth, and time. Hence, the formation of space-time.  The fascinating outcome of this is that the universe, space-time, is not infinite but instead bounded. That space-time comes into and out of existence probabilistically with the formation of these particles. The absence of particles is nonlocality or one dimension in which everything exists simultaneously at the same instance. The string ties these particles in the Planckian realm, the Quantum,  through the layers of reality (sub-atomis, atomic, meso-physical) to the Physical realm.


Saturday, September 29, 2012

UFOs: An Alternative Look Series

Comment: This series is a look at the bizarre and outlandish. The claims made on both sides to many people may be even more bizarre. Please stay with the series and explore with me the UFO phenomenon. 

Many people are familiar with the UFO phenomenon as it has been sensationalized  in broadcast media, news media, books, and movies.  The belief that UFOs exist is widespread. UFO bystanders, enthusiast, and cultists predominantly have believed that aliens or physical beings from elsewhere in the universe visit the Earth. However, as time has passed and scientific discovery increasingly points against physical beings from elsewhere in the universe the origin of UFOs has shifted to dimensions beyond space-time.

This is a series centered on UFOs summarizing the works of Dr Hugh Ross (Physicists), Kenneth Samples (Theological Scholar), and Dr Mark Clark (Political Science Philosopher).  Also included in this series is the works of Dr. Guillermo Gonzalez (Astronomer) and Dr. Jay W. Richards (Theological Scholar). Commentary from popular broadcast shows such as Star Trek will also be included and more. These scholars take a look at UFOs from a unique perspective which presents some very interesting thoughts counter to the mainstream views.
Click to Buy

The picture they paint is interesting and has profound implications for much of the post-modern thought. The picture contributes to a much broader spectrum of issues than just UFOs. Please stay with the series and feel to comment.

Note: Many ongoing investigations in the paranormal and UFO phenomenon are revealing natural origins for the events. For example, the Bermuda Triangle has been discovered to be an underwater mega volcano which releases methane and sulfuric gases from time-to-time accounting for the churning white water reports, magnetic anomalies, and aircraft suddenly loosing altitude or engines dying off.  Also discovered is the presence of large electo-static charges in quartz bearing rock.  These charges are released during seismic activity appearing as bluish glowing plasma fields and if the charge is large enough as spinning lightning bowls. The spinning lightning bowls are electric acting at right angles accounting for erratic seemingly unnatural motion. Additionally, the spinning flattens the bowls to look like a saucer. This rare natural phenomenon of lightning bowls has been known to chase people and knock homes off of foundations when discharging. 

References:

Gonzales, G and Richardson, J (2004). The privileged planet. Eagle Publishing Company. Washington DC.

Roddenberry, G. (1993). Star trek: the next generation. who is watching the watcher. 3rd season, 4th episode. Universal Pictures.

Ross, H., Samples, K., and Clark, M. (2002). Lights in the sky and little green men: a rational christian look at UFOs and extraterrestrials. Navpress. Colorado.





Science Briefs

Comment:  This series of briefs in support for a series on UFOs. The science briefs are intended to prepare readers for the series and establish the view from a rational perspective. Each brief is a high level overview and does not go into deep detail. However, they can be somewhat abstract. New briefs will be added and updates will be made on a regular basis before and during the series. So revisit regularly. 

The picture being painted by the science briefs is that all dimensions and order of magnitudes are characterized by a natural resonance, vibration, or harmonic represented by a string that weaves through the universe forming some sort of fabric that we know as reality. Regarding UFOs, the dimension beyond space-time that may possess some sort of entity or being is the energy dimension. Although, non physical beings may be multi-dimensional as are humans. Thus, non-physical beings may reside across other dimensions that are beyond human comprehension. I focused the briefs on the most comprehendable possibilities. 

Science Concepts

Aliens Cause Global Warming

M-Theory Brief

Information Theory Overview

M-Theory Brief

Comment:  This is a brief in support for a series on UFOs. The science briefs are intended to prepare readers for the series and establish the view from a rational perspective.  By the end of this, I hope that readers have a functional understanding of the theory and concepts.

M-Theory

M-Theory has been  popularized in many movies such as Timeline, The Matrix, and many others. Hollywood took a creative license when investigating the many possibilities of the theory. Nonetheless, M-Theory is relatively new being introduced during 1997 by Physicist Edward Whitten who sought a unifying theory for the everything. The theory stunned the science community because of its well supported and demonstratable applicability. The meaning of M-Theory designation is just a serialized name for the theory to distinguish from other theories like G-Theory or Q-Theory. Scientists do not know what to call it yet.

Whitten in developing M-Theory, took the well establised equations of space-time, the theory of relativity, quantum loop theory of gravity, superstring theory, and others  into a mathematical relationship that demonstrated a ten dimensional universe with a mathematical error as a 11th dimension. The error is generally thought of as insignificant and indicates the model may not be complete yet.  The underlying support for strings is that everything is in a natural resonance or vibrational state, known as harmonics, which is characterized by an oscillating string linking the quantum realm to the physical realm.

Conventions In Physics

Let us first consider some conventions used in physics. Many people hear about particles and strings but have little grasp as to what these things really are about. They are abstractions that represent a local grouping of collective behavior physicists are observing.

Particles generally appear in the Planckian realm at an order of magnitude of about 10-30 meters. In lay terms, particles are generally thought of as soupy fields of local goop (not plasma fields as they occur at a higher order of magnitude) that demonstrate a common behavior. Physicists assign the concept of a particle to the field in order to conduct 'combinatory play' or foley with the behaviors. Consider love and hate. They are intangible and not empirically observable but we know they exist and have some general traits. If a love particle and a hate particle are assigned traits such that they resemble something like pool balls, then we can assign the qualities of love and hate to the respective particles. In this way, we can begin to explore their interactions.

Likewise, harmonics and waveforms resemble an oscillating string and can take on many other shapes. Please recall when as a child you took a long rope or string and shook the end such that a wave or bump travelled down the rope, this is the  concept of strings as used in physics. Strings describe the behavior of lightwaves, particle waves, and a variety of wave shapes.  The string is mathematical formulation of the harmonic state of the waveform. Thus, innumerable strings are possible. Edward Whitten used the most probable strings in formulating M-Theory which are a closed loop string as opposed to an open ended string.   

Harmonics and M-Theory Formulation

In M-Theory, strings are infinitely thin and run through the substance of space-time forming the 'fabric' of space time. The natural resonance of all things is a natural harmonic that requires a time basing association of the waveforms or strings representing the resonance. Looking at M-theory, the first four dimensions are space-time and the remaining six dimensions are natural but cannot be explored by humans directly. Let's look at some of these equations briefly to understand what is going on.

The equations for space-time are expressed as functions of time and annotated as X(t) for example. A is acceleration, V is velocity, and Xis the intitial displacement in space. The equations of space-time are:

X(t) = 1/2 At2 + Vt + X0
Y(t) = 1/2 At2 + Vt + Y0
Z(t) = 1/2 At2 + Vt + Z0

The dimensions are X, Y, Z and t or Time. In a simliar fashion the Theory of Relativity is developed into a function of time.  E = MC2 is the Theory of Relativity that must be transformed into a function of time as the common point of reference. The equation for velocity is distance over time or distance as a function of time, D(t). Thus, the speed of light;   C = V(t)  where V(t) can be in any one of the first derivatives of the three spatial directions X(t), Y(t), or Z(t) or a combination of directions known as a vector as well as their formulas on the other side of the equal sign.  The equation becomes:

E(t) = M [ V(t) ]2

On a side note, many scientists hold the speed of light constant in order to make their theories work properly. However, there is evidence that the speed of light may vary. Theories indicate that the universe has been / is expanding. This has the effect of dilating time and subsequently affecting the speed of light. For example, relax a rubber band and put two marks one inch apart, name the span between the marks 1 second, then place the rubber band under tension. The marks spread apart making the distance between them greater but the definition between the marks remains one second. The dilation is related to the delta in the distance between the marks before and after tension. The universe is also said to be under tension of expansion forces counter by equal and opposite particle forces that want to draw the universe back to a singularity. 

The fifth dimension becomes energy, E(t), which includes three of the four natural forces and is now tied to space and time. Gravity is a sixth dimension as string's tension describes quantum gravity. While seemingly complicated this is the approach Whitten took. All these equations were based on time and used to formulate unified equation of reality. Common to linear algebra methods, a matrix of simultaneous equations was formed to solve the equations for various conditions and instances.  Hence, the movie The Matrix draws its dichotomy of reality (the red pill) or the matrix versus illusion (the blue pill) or the results produced by the matrix from this analogy.

Looking Deeper

Figure 1
Whitten went farther than we did here as he used 11 dimensional strings that tied the quantum to the physical in Superstring Theory. Please refer to Figure 1: Wave form Basics, in the following discussion. Note that vibrating strings can occur in 2 or more dimensions.  Velocity of a vibrating string is frequency. Acceleration is the rate of change in velocity. Additionally, vibrating strings' amplitude is associated to the energy in the system. Tension or stiffness in the string is associated with gravity. Time is associated with the period and wavelength of a string. For example, a second of time is one wavelength of Argon gas.  The remaining dimensions are related to the harmonics of vibrating strings and may be attributed to other natural dimensions as well. Time basing the equations is necessary in harmonics. The mathematical error consists of the eleventh dimension which is technically insignificant.  Whitten Discusses.

The significance of M-Theory is that it illustrated to scientists that the parts or pieces of the universe were well understood and science had been too close to the puzzle preventing them from seeing the picture being assembled. Many scientist equated the discovery to stepping back and looking at the whole elephant from a distance rather than up close and only seeing the individual components.

Subset Theories

When the ten dimensions of M-theory are conformally mapped into three dimensions to see what they look like the process reveals an infinite number of spheres called Worlds and large infinitely thin sheets known as membranes or Branes for short.  This model has become known as the Brane-World model of the universe. Scientist then hypothesize that the worlds (spheres) collide with each other or are slapped by the membranes flapping like a flag in the wind. These collsions between Worlds results in new universes that are merged together or bounce around like pool balls on a billard table. Meanwhile, a World slapped by a membrane, The Many Slap Theory, results in a reordering of the World or Universe. Such a slap from a membrane would be considered a Big Bang from within the universe.

There are many implications for M-Theory and it has some profound impacts on the human perception of reality and the human place in the cosmos.

I hope you enjoyed the read and gained some valuable insight into the theory. My goal was to communicate as best possible a complex concept. Please fell free to email me and let me know your thoughts. james.bogden@gmail.com. Thanks!

Aliens Cause Global Warming

Comment:  This is a brief in support for a series on UFOs. The science briefs are intended to prepare readers for the series and establish the view from a rational perspective. Michael Critchton makes the point that scientist have political opinions and agendas which creep into their science. More importantly, Critchton points to many instances of failed leadership in the scientific community by pursuing objectives that have no scientific basis. Selfish power is more at the root of the current science movement than humility. The points Critchton makes demonstrate a hugh problem with science today. 

Aliens Cause Global Warming
By Michael Critchton

Presented At
California Institute of Technology
Pasadena, CA
January 17, 2003

Michael Critchton:

My topic today sounds humorous but unfortunately I am serious. I am going to argue that extraterrestrials lie behind global warming. Or to speak more precisely, I will argue that a belief in extraterrestrials has paved the way, in a progression of steps, to a belief in global warming. Charting this progression of belief will be my task today.

Let me say at once that I have no desire to discourage anyone from believing in either extraterrestrials or global warming. That would be quite impossible to do. Rather, I want to discuss the history of several widely-publicized beliefs and to point to what I consider an emerging crisis in the whole enterprise of science, namely the increasingly uneasy relationship between hard science and public policy.

I have a special interest in this because of my own upbringing. I was born in the midst of World War II, and passed my formative years at the height of the Cold War. In school drills, I dutifully crawled under my desk in preparation for a nuclear attack.

It was a time of widespread fear and uncertainty, but even as a child I believed that science represented the best and greatest hope for mankind. Even to a child, the contrast was clear between the world of politics-a world of hate and danger, of irrational beliefs and fears, of mass manipulation and disgraceful blots on human history. In contrast, science held different values-international in scope, forging friendships and working relationships across national boundaries and political systems, encouraging a dispassionate habit of thought, and ultimately leading to fresh knowledge and technology that would benefit all mankind. The world might not be avery good place, but science would make it better. And it did. In my lifetime, science has largely fulfilled its promise. Science has been the great intellectual adventure of our age, and a great hope for our troubled and restless world.

But I did not expect science merely to extend lifespan, feed the hungry, cure disease, and shrink the world with jets and cell phones. I also expected science to banish the evils of human thought---prejudice and superstition, irrational beliefs and false fears. I expected science to be, in Carl Sagan's memorable phrase, "a candle in a demon haunted world." And here, I am not so pleased with the impact of science. Rather than serving as a cleansing force, science has in some instances been seduced by the more ancient lures of politics and publicity. Some of the demons that haunt our world in recent years are invented by scientists. The world has not benefited from permitting these demons to escape free.

But let's look at how it came to pass.

Cast your minds back to 1960. John F. Kennedy is president, commercial jet airplanes are just appearing, the biggest university mainframes have 12K of memory. And in Green Bank, West Virginia at the new National Radio Astronomy Observatory, a young astrophysicist named Frank Drake runs a two week project called Ozma, to search for extraterrestrial signals. A signal is received, to great excitement. It turns out to be false, but the excitement remains. In 1960, Drake organizes the first SETI conference, and came up with the now-famous Drake equation:

N=N*fp ne fl fi fc fL

Where N is the number of stars in the Milky Way galaxy; fp is the fraction with planets; ne is the number of planets per star capable of supporting life; fl is the fraction of planets where life evolves; fi is the fraction where intelligent life evolves; and fc is the fraction that communicates; and fL is the fraction of the planet's life during which the communicating civilizations live.

This serious-looking equation gave SETI an serious footing as a legitimate intellectual inquiry. The problem, of course, is that none of the terms can be known, and most cannot even be estimated. The only way to work the equation is to fill in with guesses. And guesses-just so we're clear-are merely expressions of prejudice. Nor can there be "informed guesses." If you need to state how many planets with life choose to communicate, there is simply no way to make an informed guess. It's simply prejudice.

As a result, the Drake equation can have any value from "billions and billions" to zero. An expression that can mean anything means nothing. Speaking precisely, the Drake equation is literally meaningless, and has nothing to do with science. I take the hard view that science involves the creation of testable hypotheses. The Drake equation cannot be tested and therefore SETI is not science. SETI is unquestionably a religion. Faith is defined as the firm belief in something for which there is no proof. The belief that the Koran is the word of God is a matter of faith. The belief that God created the universe in seven days is a matter of faith. The belief that there are other life forms in the universe is a matter of faith. There is not a single shred of evidence for any other life forms, and in forty years of searching, none has been discovered. There is absolutely no evidentiary reason to maintain this belief. SETI is a religion.

One way to chart the cooling of enthusiasm is to review popular works on the subject. In 1964, at the height of SETI enthusiasm, Walter Sullivan of the NY Times wrote an exciting book about life in the universe entitled WE ARE NOT ALONE. By 1995, when Paul Davis wrote a book on the same subject, he titled it ARE WE ALONE? ( Since 1981, there have in fact been four books titled ARE WE ALONE.) More recently we have seen the rise of the so-called "Rare Earth" theory which suggests that we may, in fact, be all alone. Again, there is no evidence either way.

Back in the sixties, SETI had its critics, although not among astrophysicists and astronomers. The biologists and paleontologists were harshest. George Gaylord Simpson of Harvard sneered that SETI was a "study without a subject," and it  remains so to the present day.

But scientists in general have been indulgent toward SETI, viewing it either with bemused tolerance, or with indifference. After all, what's the big deal? It's kind of fun. If people want to look, let them. Only a curmudgeon would speak harshly of SETI. It wasn't worth the bother.

And of course it is true that untestable theories may have heuristic value. Of course extraterrestrials are a good way to teach science to kids. But that does not relieve us of the obligation to see the Drake equation clearly for what it is pure speculation in quasi-scientific trappings.

The fact that the Drake equation was not greeted with screams of outrage-similar to the screams of outrage that greet each Creationist new claim, for examplemeant that now there was a crack in the door, a loosening of the definition of what constituted legitimate scientific procedure. And soon enough, pernicious garbage began to squeeze through the cracks.

Now let's jump ahead a decade to the 1970s, and Nuclear Winter.

In 1975, the National Academy of Sciences reported on "Long-Term Worldwide Effects of Multiple Nuclear Weapons Detonations" but the report estimated the effect of dust from nuclear blasts to be relatively minor. In 1979, the Office of Technology Assessment issued a report on "The Effects of Nuclear War" and stated that nuclear war could perhaps produce irreversible adverse consequences on the environment. However, because the scientific processes involved were poorly understood, the report stated it was not possible to estimate  the probable magnitude of such damage.

Three years later, in 1982, the Swedish Academy of Sciences commissioned a report entitled "The Atmosphere after a Nuclear War: Twilight at Noon," which attempted to quantify the effect of smoke from burning forests and cities. The authors speculated that there would be so much smoke that a large cloud over the northern hemisphere would reduce incoming sunlight below the level required for photosynthesis, and that this would last for weeks or even longer.

The following year, five scientists including Richard Turco and Carl Sagan published a paper in Science called "Nuclear Winter: Global Consequences of Multiple Nuclear Explosions." This was the so-called TTAPS report, which attempted to quantify more rigorously the atmospheric effects, with the added credibility to be gained from an actual computer model of climate.

At the heart of the TTAPS undertaking was another equation, never specifically expressed, but one that could be paraphrased as follows:

Ds = Wn Ws Wh Tf Tb Pt Pr Pe… etc

(The amount of tropospheric dust=# warheads x size warheads x warhead detonation height x flammability of targets x Target burn duration x Particles entering the Troposphere x Particle reflectivity x Particle endurance…and so on.)

The similarity to the Drake equation is striking. As with the Drake equation, none of the variables can be determined. None at all. The TTAPS study addressed this problem in part by mapping out different wartime scenarios and assigning numbers to some of the variables, but even so, the remaining variables were-and are-simply unknowable. Nobody knows how much smoke will be generated when cities burn, creating particles of what kind, and for how long. No one knows the effect of local weather conditions on the amount of particles that will be injected into the troposphere. No one knows how long the particles will remain in the troposphere. And so on.

And remember, this is only four years after the OTA study concluded that the underlying scientific processes were so poorly known that no estimates could be reliably made. Nevertheless, the TTAPS study not only made those estimates, but concluded they were catastrophic.

According to Sagan and his coworkers, even a limited 5,000 megaton nuclear exchange would cause a global temperature drop of more than 35 degrees Centigrade, and this change would last for three months. The greatest volcanic eruptions that we know of changed world temperatures somewhere between .5 and 2 degrees Centigrade. Ice ages changed global temperatures by 10 degrees. Here we have an estimated change three times greater than any ice age. One might expect it to be the subject of some dispute.

But Sagan and his coworkers were prepared, for nuclear winter was from the outset the subject of a well-orchestrated media campaign. The first announcement of nuclear winter appeared in an article by Sagan in the Sunday supplement, Parade. The very next day, a highly-publicized, high-profile conference on the long-term consequences of nuclear war was held in Washington, chaired by Carl Sagan and Paul Ehrlich, the most famous and media-savvy scientists of their generation. Sagan appeared on the Johnny Carson show 40 times. Ehrlich was on 25 times. Following the conference, there were press conferences, meetings with congressmen, and so on. The formal papers in Science came months later.

This is not the way science is done, it is the way products are sold.

The real nature of the conference is indicated by these artists' renderings of the the effect of nuclear winter.

I cannot help but quote the caption for figure 5: "Shown here is a tranquil scene in the north woods. A beaver has just completed its dam, two black bears forage for food, a swallow-tailed butterfly flutters in the foreground, a loon swims quietly by, and a kingfisher searches for a tasty fish." Hard science if ever there was.

At the conference in Washington, during the question period, Ehrlich was reminded that after Hiroshima and Nagasaki, scientists were quoted as saying nothing would grow there for 75 years, but in fact melons were growing the next year. So, he was asked, how accurate were these findings now?

Ehrlich answered by saying "I think they are extremely robust. Scientists may have made statements like that, although I cannot imagine what their basis would have been, even with the state of science at that time, but scientists are always making absurd statements, individually, in various places. What we are doing here, however, is presenting a consensus of a very large group of scientists…"

I want to pause here and talk about this notion of consensus, and the rise of what has been called consensus science. I regard consensus science as an extremely pernicious development that ought to be stopped cold in its tracks. Historically, the claim of consensus has been the first refuge of scoundrels; it is a way to avoid debate by claiming that the matter is already settled. Whenever you hear the consensus of scientists agrees on something or other, reach for your wallet, because you're being had.

Let's be clear: the work of science has nothing whatever to do with consensus. Consensus is the business of politics. Science, on the contrary, requires only one investigator who happens to be right, which means that he or she has results that are verifiable by reference to the real world. In science consensus is irrelevant. What is relevant is reproducible results. The greatest scientists in history are great precisely because they broke with the consensus.

There is no such thing as consensus science. If it's consensus, it isn't science. If it's science, it isn't consensus. Period.

In addition, let me remind you that the track record of the consensus is nothing to be proud of. Let's review a few cases.

In past centuries, the greatest killer of women was fever following childbirth. One woman in six died of this fever. In 1795, Alexander Gordon of Aberdeen suggested that the fevers were infectious processes, and he was able to cure them. The consensus said no. In 1843, Oliver Wendell Holmes claimed puerperal fever was contagious, and presented compellng evidence. The consensus said no. In 1849, Semmelweiss demonstrated that sanitary techniques virtually eliminated puerperal fever in hospitals under his management. The consensus said he was a Jew, ignored him, and dismissed him from his post. There was in fact no agreement on puerperal fever until the start of the twentieth century. Thus the consensus took one hundred and twenty five years to arrive at the right conclusion despite the efforts of the prominent "skeptics" around the world, skeptics who were demeaned and ignored. And despite the constant ongoing deaths of women.

There is no shortage of other examples. In the 1920s in America, tens of thousands of people, mostly poor, were dying of a disease called pellagra. The consensus of scientists said it was infectious, and what was necessary was to find the "pellagra germ." The US government asked a brilliant young investigator, Dr. Joseph Goldberger, to find the cause. Goldberger concluded that diet was the crucial factor. The consensus remained wedded to the germ theory. Goldberger demonstrated that he could induce the disease through diet. He demonstrated that the disease was not infectious by injecting the blood of a pellagra patient into himself, and his assistant. They and other volunteers swabbed their noses with swabs from pellagra patients, and swallowed capsules containing scabs from pellagra rashes in what were called "Goldberger's filth parties." Nobody contracted pellagra. The consensus continued to disagree with him. There was, in addition, a social factor-southern States disliked the idea of poor diet as the cause, because it meant that social reform was required. They continued to deny it until the 1920s. Result-despite a twentieth century epidemic, the consensus took years to see the light.

Probably every schoolchild notices that South America and Africa seem to fit together rather snugly, and Alfred Wegener proposed, in 1912, that the continents had in fact drifted apart. The consensus sneered at continental drift for fifty years. The theory was most vigorously denied by the great names of geology-until 1961, when it began to seem as if the sea floors were spreading. The result: it took the consensus fifty years to acknowledge what any schoolchild sees.

And shall we go on? The examples can be multiplied endlessly. Jenner and smallpox, Pasteur and germ theory. Saccharine, margarine, repressed memory, fiber and colon cancer, hormone replacement therap6y…the list of consensus errors goes on and on.

Finally, I would remind you to notice where the claim of consensus is invoked.  Consensus is invoked only in situations where the science is not solid enough. Nobody says the consensus of scientists agrees that E=mc2. Nobody says the consensus is that the sun is 93 million miles away. It would never occur to anyone to speak that way.

But back to our main subject.

What I have been suggesting to you is that nuclear winter was a meaningless formula, tricked out with bad science, for policy ends. It was political from the beginning, promoted in a well-orchestrated media campaign that had to be planned weeks or months in advance.

Further evidence of the political nature of the whole project can be found in the response to criticism. Although Richard Feynman was characteristically blunt, saying, "I really don't think these guys know what they're talking about," other prominent scientists were noticeably reticent. Freeman Dyson was quoted as saying "It's an absolutely atrocious piece of science but…who wants to be accused of being in favor of nuclear war?" And Victor Weisskopf said, "The science is terrible but---perhaps the psychology is good." The nuclear winter team followed up the publication of such comments with letters to the editors denying that these statements were ever made, though the scientists since then have subsequently confirmed their views.

At the time, there was a concerted desire on the part of lots of people to avoid nuclear war. If nuclear winter looked awful, why investigate too closely? Who wanted to disagree? Only people like Edward Teller, the "father of the H bomb."

Teller said, "While it is generally recognized that details are still uncertain and deserve much more study, Dr. Sagan nevertheless has taken the position that the whole scenario is so robust that there can be little doubt about its main conclusions." Yet for most people, the fact that nuclear winter was a scenario riddled with uncertainties did not seem to be relevant.

I say it is hugely relevant. Once you abandon strict adherence to what science tells us, once you start arranging the truth in a press conference, then anything is possible. In one context, maybe you will get some mobilization against nuclear war. But in another context, you get Lysenkoism. In another, you get Nazi  euthanasia. The danger is always there, if you subvert science to political ends.

That is why it is so important for the future of science that the line between what science can say with certainty, and what it cannot, be drawn clearly-and defended.

What happened to Nuclear Winter? As the media glare faded, its robust scenario appeared less persuasive; John Maddox, editor of Nature, repeatedly criticized its claims; within a year, Stephen Schneider, one of the leading figures in the climate model, began to speak of "nuclear autumn." It just didn't have the same ring.

A final media embarrassment came in 1991, when Carl Sagan predicted on Nightline that Kuwaiti oil fires would produce a nuclear winter effect, causing a "year without a summer," and endangering crops around the world. Sagan stressed this outcome was so likely that "it should affect the war plans." None of it happened.

What, then, can we say were the lessons of Nuclear Winter? I believe the lesson was that with a catchy name, a strong policy position and an aggressive media campaign, nobody will dare to criticize the science, and in short order, a terminally weak thesis will be established as fact. After that, any criticism becomes beside the point. The war is already over without a shot being fired. That was the lesson, and we had a textbook application soon afterward, with second hand smoke.

In 1993, the EPA announced that second-hand smoke was "responsible for approximately 3,000 lung cancer deaths each year in nonsmoking adults," and that it " impairs the respiratory health of hundreds of thousands of people." In a 1994 pamphlet the EPA said that the eleven studies it based its decision on were not by themselves conclusive, and that they collectively assigned second-hand smoke a risk factor of 1.19. (For reference, a risk factor below 3.0 is too small for action by the EPA. or for publication in the New England Journal of Medicine, for example.) Furthermore, since there was no statistical association at the 95% confidence limits, the EPA lowered the limit to 90%. They then classified second hand smoke as a Group A Carcinogen.

This was openly fraudulent science, but it formed the basis for bans on smoking in restaurants, offices, and airports. California banned public smoking in 1995. Soon, no claim was too extreme. By 1998, the Christian Science Monitor was saying that "Second-hand smoke is the nation's third-leading preventable cause of death." The American Cancer Society announced that 53,000 people died each year of second-hand smoke. The evidence for this claim is nonexistent.

In 1998, a Federal judge held that the EPA had acted improperly, had "committed to a conclusion before research had begun", and had "disregarded information and made findings on selective information." The reaction of Carol Browner, head of the EPA was: "We stand by our science….there's wide agreement. The American people certainly recognize that exposure to second hand smoke brings…a whole host of health problems." Again, note how the claim of consensus trumps science. In this case, it isn't even a consensus of scientists that Browner evokes! It's the consensus of the American people.

Meanwhile, ever-larger studies failed to confirm any association. A large, sevencountry WHO study in 1998 found no association. Nor have well-controlled subsequent studies, to my knowledge. Yet we now read, for example, that second hand smoke is a cause of breast cancer. At this point you can say pretty much anything you want about second-hand smoke.

As with nuclear winter, bad science is used to promote what most people would consider good policy. I certainly think it is. I don't want people smoking around me. So who will speak out against banning second-hand smoke? Nobody, and if you do, you'll be branded a shill of RJ Reynolds. A big tobacco flunky. But the truth is that we now have a social policy supported by the grossest of superstitions. And we've given the EPA a bad lesson in how to behave in the future. We've told them that cheating is the way to succeed.

As the twentieth century drew to a close, the connection between hard scientific fact and public policy became increasingly elastic. In part this was possible because of the complacency of the scientific profession; in part because of the lack of good science education among the public; in part, because of the rise of specialized advocacy groups which have been enormously effective in getting publicity and shaping policy; and in great part because of the decline of the media as an independent assessor of fact. The deterioration of the American media is dire loss for our country. When distinguished institutions like the New York Times can no longer differentiate between factual content and editorial opinion, but rather mix both freely on their front page, then who will hold anyone to a higher standard?

And so, in this elastic anything-goes world where science-or non-science-is the hand maiden of questionable public policy, we arrive at last at global warming. It is not my purpose here to rehash the details of this most magnificent of the demons haunting the world. I would just remind you of the now-familiar pattern by which these things are established. Evidentiary uncertainties are glossed over in the unseemly rush for an overarching policy, and for grants to support the policy by delivering findings that are desired by the patron. Next, the isolation of those scientists who won't get with the program, and the characterization of those scientists as outsiders and "skeptics" in quotation marks-suspect individuals with suspect motives, industry flunkies, reactionaries, or simply anti-environmental nutcases. In short order, debate ends, even though prominent scientists are uncomfortable about how things are being done.

When did "skeptic" become a dirty word in science? When did a skeptic require quotation marks around it?

To an outsider, the most significant innovation in the global warming controversy is the overt reliance that is being placed on models. Back in the days of nuclear winter, computer models were invoked to add weight to a conclusion: "These results are derived with the help of a computer model." But now large-scale computer models are seen as generating data in themselves. No longer are models judged by how well they reproduce data from the real world-increasingly, models provide the data. As if they were themselves a reality. And indeed they are, when we are projecting forward. There can be no observational data about the year 2100. There are only model runs.

This fascination with computer models is something I understand very well. Richard Feynmann called it a disease. I fear he is right. Because only if you spend a lot of time looking at a computer screen can you arrive at the complex point where the global warming debate now stands.

Nobody believes a weather prediction twelve hours ahead. Now we're asked to believe a prediction that goes out 100 years into the future? And make financial investments based on that prediction? Has everybody lost their minds?

Stepping back, I have to say the arrogance of the modelmakers is breathtaking. There have been, in every century, scientists who say they know it all. Since climate may be a chaotic system-no one is sure-these predictions are inherently doubtful, to be polite. But more to the point, even if the models get the science spot-on, they can never get the sociology. To predict anything about the world a hundred years from now is simply absurd.

Look: If I was selling stock in a company that I told you would be profitable in 2100, would you buy it? Or would you think the idea was so crazy that it must be a scam?

Let's think back to people in 1900 in, say, New York. If they worried about people in 2000, what would they worry about? Probably: Where would people get enough horses? And what would they do about all the horseshit? Horse pollution was bad in 1900, think how much worse it would be a century later, with so many more people riding horses?

But of course, within a few years, nobody rode horses except for sport. And in 2000, France was getting 80% its power from an energy source that was unknown in 1900. Germany, Switzerland, Belgium and Japan were getting more than 30% from this source, unknown in 1900. Remember, people in 1900 didn't know what an atom was. They didn't know its structure. They also didn't know what a radio was, or an airport, or a movie, or a television, or a computer, or a cell phone, or a jet, an antibiotic, a rocket, a satellite, an MRI, ICU, IUD, IBM, IRA, ERA, EEG, EPA, IRS, DOD, PCP, HTML, internet. interferon, instant replay, remote sensing, remote control, speed dialing, gene therapy, gene splicing, genes, spot welding, heat-seeking, bipolar, prozac, leotards, lap dancing, email, tape recorder, CDs, airbags, plastic explosive, plastic, robots, cars, liposuction, transduction, superconduction, dish antennas, step aerobics, smoothies, twelvestep, ultrasound, nylon, rayon, teflon, fiber optics, carpal tunnel, laser surgery, laparoscopy, corneal transplant, kidney transplant, AIDS… None of this would have meant anything to a person in the year 1900. They wouldn't know what you are talking about.

Now. You tell me you can predict the world of 2100. Tell me it's even worth thinking about. Our models just carry the present into the future. They're bound to be wrong. Everybody who gives a moment's thought knows it.

I remind you that in the lifetime of most scientists now living, we have already had an example of dire predictions set aside by new technology. I refer to the green revolution. In 1960, Paul Ehrlich said, "The battle to feed humanity is over. In the 1970s the world will undergo famines-hundreds of millions of people are going to starve to death." Ten years later, he predicted four billion people would die during the 1980s, including 65 million Americans. The mass starvation that was predicted never occurred, and it now seems it isn't ever going to happen. Nor is the population explosion going to reach the numbers predicted even ten years ago. In 1990, climate modelers anticipated a world population of 11 billion by 2100. Today, some people think the correct number will be 7 billion and falling. But nobody knows for sure.

But it is impossible to ignore how closely the history of global warming fits on the previous template for nuclear winter. Just as the earliest studies of nuclear winter stated that the uncertainties were so great that probabilites could never be known, so, too the first pronouncements on global warming argued strong limits on what could be determined with certainty about climate change. The 1995 IPCC draft report said, "Any claims of positive detection of significant climate change are likely to remain controversial until uncertainties in the total natural variability of the climate system are reduced." It also said, "No study to date has positively attributed all or part of observed climate changes to anthropogenic  causes." Those statements were removed, and in their place appeared: "The balance of evidence suggests a discernable human influence on climate."

What is clear, however, is that on this issue, science and policy have become inextricably mixed to the point where it will be difficult, if not impossible, to separate them out. It is possible for an outside observer to ask serious questions about the conduct of investigations into global warming, such as whether we are taking appropriate steps to improve the quality of our observational data records, whether we are systematically obtaining the information that will clarify existing uncertainties, whether we have any organized disinterested mechanism to direct research in this contentious area.

The answer to all these questions is no. We don't.

In trying to think about how these questions can be resolved, it occurs to me that in the progression from SETI to nuclear winter to second hand smoke to global warming, we have one clear message, and that is that we can expect more and more problems of public policy dealing with technical issues in the futureproblems of ever greater seriousness, where people care passionately on all sides.

And at the moment we have no mechanism to get good answers. So I will propose one.

Just as we have established a tradition of double-blinded research to determine drug efficacy, we must institute double-blinded research in other policy areas as well. Certainly the increased use of computer models, such as GCMs, cries out for the separation of those who make the models from those who verify them. The fact is that the present structure of science is entrepeneurial, with individual investigative teams vying for funding from organizations which all too often have a clear stake in the outcome of the research-or appear to, which may be just as bad. This is not healthy for science.

Sooner or later, we must form an independent research institute in this country. It must be funded by industry, by government, and by private philanthropy, both individuals and trusts. The money must be pooled, so that investigators do not know who is paying them. The institute must fund more than one team to do research in a particular area, and the verification of results will be a foregone requirement: teams will know their results will be checked by other groups. In many cases, those who decide how to gather the data will not gather it, and those who gather the data will not analyze it. If we were to address the land temperature records with such rigor, we would be well on our way to an understanding of exactly how much faith we can place in global warming, and therefore what seriousness we must address this.

I believe that as we come to the end of this litany, some of you may be saying, well what is the big deal, really. So we made a few mistakes. So a few scientists have overstated their cases and have egg on their faces. So what. 

Well, I'll tell you.

In recent years, much has been said about the post modernist claims about science to the effect that science is just another form of raw power, tricked out in special claims for truth-seeking and objectivity that really have no basis in fact. Science, we are told, is no better than any other undertaking. These ideas anger many scientists, and they anger me. But recent events have made me wonder if they are correct. We can take as an example the scientific reception accorded a Danish statistician, Bjorn Lomborg, who wrote a book called The Skeptical Environmentalist.

The scientific community responded in a way that can only be described as disgraceful. In professional literature, it was complained he had no standing because he was not an earth scientist. His publisher, Cambridge University Press, was attacked with cries that the editor should be fired, and that all rightthinking scientists should shun the press. The past president of the AAAS wondered aloud how Cambridge could have ever "published a book that so clearly could never have passed peer review." )But of course the manuscript did pass peer review by three earth scientists on both sides of the Atlantic, and all recommended publication.) But what are scientists doing attacking a press? Is this the new McCarthyism-coming from scientists?

Worst of all was the behavior of the Scientific American, which seemed intent on proving the post-modernist point that it was all about power, not facts. The Scientific American attacked Lomborg for eleven pages, yet only came up with nine factual errors despite their assertion that the book was "rife with careless mistakes." It was a poor display featuring vicious ad hominem attacks, including comparing him to a Holocust denier. The issue was captioned: "Science defends itself against the Skeptical Environmentalist." Really. Science has to defend itself? Is this what we have come to?

When Lomborg asked for space to rebut his critics, he was given only a page and a half. When he said it wasn't enough, he put the critics' essays on his web page and answered them in detail. Scientific American threatened copyright infringement and made him take the pages down.

Further attacks since have made it clear what is going on. Lomborg is charged with heresy. That's why none of his critics needs to substantiate their attacks in any detail. That's why the facts don't matter. That's why they can attack him in the most vicious personal terms. He's a heretic.

Of course, any scientist can be charged as Galileo was charged. I just never thought I'd see the Scientific American in the role of mother church.

Is this what science has become? I hope not. But it is what it will become, unless there is a concerted effort by leading scientists to aggressively separate science from policy. The late Philip Handler, former president of the National Academy of Sciences, said that "Scientists best serve public policy by living within the ethics of science, not those of politics. If the scientific community will not unfrock the charlatans, the public will not discern the difference-science and the nation will suffer." Personally, I don't worry about the nation. But I do worry about science.

Thank you very much.

Reference:

Critchton, M, (2003). Aliens cause global warming. Rensselaer Polytechnic Institute website. Resourced September 10, 2012 from:  http://ees2.geo.rpi.edu/abrajanoCourses/public_html/Aliens%20Cause%20Global%20Warming.pdf