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rick sumner

Trad climber
reno, nevada/ wasilla alaska
Dec 19, 2013 - 10:12pm PT
Even if i was a statistician, why bother Ed, Bob Tisdale did an extraordinary job of deconstructing Rahmstorf and Larry over on WUWT sometime ago. A true professional, his grasp of the full range of mechanisms, values as forcing or moderating agents, and their complex interactions was beyond argument. And Ed, were those possible negative feedbacks i mentioned last night realistic ?
Chiloe

Trad climber
Lee, NH
Dec 19, 2013 - 10:18pm PT
Even if i was a statistician, why bother Ed, Bob Tisdale did an extraordinary job of deconstructing Rahmstorf and Larry over on WUWT sometime ago. A true professional, his grasp of the full range of mechanisms, values as forcing or moderating agents, and their complex interactions was beyond argument.
Tisdale is a true professional ... what? You're living in fantasy, but on some level apparently aware enough of your D-K condition to dodge my questions about what those words you used mean. And choosing Tisdale for your "appeal to authority" argument is quite funny.

Since you don't understand or read any statistics or science, upon what do you base that whole statement?
rick sumner

Trad climber
reno, nevada/ wasilla alaska
Dec 19, 2013 - 10:41pm PT
Listen Larry, your paychecks are a result of your work in the climate study industry, are they not? This AGW industry is dominated by those finding scary human induced scenarios because that is where the funding stream flows most vigorously, is it not? So, why would anyone in their right mind listen to your endorsement of this CAGW pseudo science without a good measure of doubt about your impartiality? I'll listen to Spencer, Christy, Lindzen, Curry, Motl, Gray, Happer, Plimer, Vahrenholt, Shapiro, Livingston, Penn, Tisdale and even Monckton before i listen to hypocrits who on one hand bemoan the evils of FF companies , while accepting funding in the other hand from a consortium of said companies, environmental NGO's, and big government at FF company sponsored events like AGU. A rapidly growing majority of the populace are too.
Wade Icey

Trad climber
www.alohashirtrescue.com
Dec 19, 2013 - 10:48pm PT
Well Rick, how do you explain this?

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In posuere eros nec lacus varius eleifend. Ut sed turpis quis erat faucibus vehicula. Vestibulum dui augue, viverra id dignissim ac, euismod vel mauris. Integer pretium mi non sollicitudin blandit. Donec vitae eros lacinia, semper ante feugiat, commodo felis. Sed egestas arcu urna, commodo consequat erat laoreet et. Donec iaculis laoreet ante, et facilisis lacus tincidunt et. Nunc blandit metus sed dolor molestie, sed ultrices neque gravida. Nullam a nisl vitae est auctor facilisis vel suscipit massa. Integer nec suscipit arcu. Nulla tristique ipsum urna. Vestibulum non malesuada nibh. Ut vitae libero posuere, adipiscing nibh eu, varius nisi. Cras et metus et enim hendrerit dapibus a quis nisl.

Nam vel nibh sit amet dolor semper blandit nec id nibh. Integer sit amet quam adipiscing, mollis risus eu, molestie elit. Vestibulum ante ipsum primis in faucibus orci.

Edit: yeah, that's what I thought, Poseur.


rick sumner

Trad climber
reno, nevada/ wasilla alaska
Dec 19, 2013 - 10:54pm PT
^^^^^^^^^^^^
" Well Rick how do you explain this"?

Well Wade, with a name like Icy you would get a hell of a reception at a warmist convention.

Sandia Shethead, i suggest you drag your sorry arse back to your mama, confess your sins while she washes your mouth out with soap.
Chiloe

Trad climber
Lee, NH
Dec 19, 2013 - 10:55pm PT
Listen Larry, your paychecks are a result of your work in the climate study industry, are they not?
No, they are not. That's another of your many fantasies, Rick.

Now, can you answer any of my questions? Tisdale is a real professional of what? Since you clearly know nothing about statistics, what makes you believe that he does?
Norton

Social climber
the Wastelands
Dec 19, 2013 - 10:57pm PT
YES!

It is always very important to point out that when people get a paycheck their work is immediately suspect, like lacking accuracy and integrity!

Therefore, wait for it.....everyone in the world who makes a living is incompetent

weak

can't you do better than that?

Wade Icey

Trad climber
www.alohashirtrescue.com
Dec 19, 2013 - 10:57pm PT
Perhaps this will clear things up a bit.

Quantum physics is a branch of science that deals with discrete, indivisible units of energy called quanta as described by the Quantum Theory. There are five main ideas represented in Quantum Theory:

Energy is not continuous, but comes in small but discrete units. 1
The elementary particles behave both like particles and like waves. 2
The movement of these particles is inherently random. 3
It is physically impossible to know both the position and the momentum of a particle at the same time. The more precisely one is known, the less precise the measurement of the other is.4
The atomic world is nothing like the world we live in. 5
While at a glance this may seem like just another strange theory, it contains many clues as to the fundamental nature of the universe and is more important then even relativity in the grand scheme of things (if any one thing at that level could be said to be more important then anything else). Furthermore, it describes the nature of the universe as being much different then the world we see. As Niels Bohr said, "Anyone who is not shocked by quantum theory has not understood it." 6
Particle/Wave Duality

Particle/wave duality is perhaps the easiest way to get aquatinted with quantum theory because it shows, in a few simple experiments, how different the atomic world is from our world.
First let's set up a generic situation to avoid repetition. In the center of the experiment is a wall with two slits in it. To the right we have a detector. What exactly the detector is varies from experiment to experiment, but it's purpose stays the same: detect how many of whatever we are sending through the experiment reaches each point. To the left of the wall we have the originating point of whatever it is we are going to send through the experiment. That's the experiment: send something through two slits and see what happens. For simplicity, assume that nothing bounces off of the walls in funny patterns to mess up the experiment.



First try the experiment with bullets. Place a gun at the originating point and use a sandbar as the detector. First try covering one slit and see what happens. You get more bullets near the center of the slit and less as you get further away. When you cover the other slit, you see the same thing with respect to the other slit. Now open both slits. You get the sum of the result of opening each slit. 7 The most bullets are found in the middle of the two slits with less being found the further you get from the center.



Well, that was fun. Let's try it on something more interesting: water waves. Place a wave generator at the originating point and detect using a wave detector that measures the height of the waves that pass. Try it with one slit closed. You see a result just like that of the bullets. With the other slit closed the result is the same. Now try it with both slits open. Instead of getting the sum of the results of each slit being open, you see a wavy pattern 8; in the center there is a wave greater then the sum of what appeared there each time only one slit was open. Next to that large wave was a wave much smaller then what appeared there during either of the two single slit runs. Then the pattern repeats; large wave, though not nearly as large as the center one, then small wave. This makes sense; in some places the waves reinforced each other creating a larger wave, in other places they canceled out. In the center there was the most overlap, and therefore the largest wave. In mathematical terms, instead of the resulting intensity being the sum of the squares of the heights of the waves, it is the square of the sum.



While the result was different from the bullets, there is still nothing unusual about it; everyone has seen this effect when the waves from two stones that are dropped into a lake in different places overlap. The difference between this experiment and the previous one is easily explained by saying that while the bullets each went through only one slit, the waves each went through both slits and were thus able to interfere with themselves.
Now try the experiment with electrons. Recall that electrons are negatively charged particles that make up the outer layers of the atom. Certainly they could only go through one slit at a time, so their pattern should look like that of the bullets, right? Let's find out. (NOTE: to actually perform this exact experiment would take detectors more advanced then any on earth at this time. However, the experiments have been done with neutron beams 9 and the results were the same as those presented here. A slightly different experiment was done to show that electrons would behave the same way 10. For reasons of familiarity, we speak of electrons here instead of neutrons.) Place an electron gun at the originating point and an electron detector in the detector place. First try opening only one slit, then just the other. The results are just like those of the bullets and the waves. Now open both slits. The result is just like the waves!11



There must be some explanation. After all, an electron couldn't go through both slits. Instead of a continuous stream of electrons, let's turn the electron gun down so that at any one time only one electron is in the experiment. Now the electrons won't be able to cause trouble since there is no one else to interfere with. The result should now look like the bullets. But it doesn't! 12 It would seem that the electrons do go through both slits.
This is indeed a strange occurrence; we should watch them ourselves to make sure that this is indeed what is happening. So, we put a light behind the wall so that we can see a flash from the slit that the electron went through, or a flash from both slits if it went through both. Try the experiment again. As each electron passes through, there is a flash in only one of the two slits. So they do only go through one slit! But something else has happened too: the result now looks like the result of the bullets experiment!! 13


Obviously the light is causing problems. Perhaps if we turned down the intensity of the light, we would be able to see them without disturbing them. When we try this, we notice first that the flashes we see are the same size. Also, some electrons now get by without being detected. 14 This is because light is not continuous but made up of particles called photons. Turning down the intensity only lowers the number of photons given out by the light source.15 The particles that flash in one slit or the other behave like the bullets, while those that go undetected behave like waves16.
Well, we are not about to be outsmarted by an electron, so instead of lowering the intensity of the light, why don't we lower the frequency. The lower the frequency the less the electron will be disturbed, so we can finally see what is actually going on. Lower the frequency slightly and try the experiment again. We see the bullet curve 17. After lowering it for a while, we finally see a curve that looks somewhat like that of the waves! There is one problem, though. Lowering the frequency of light is the same as increasing it's wavelength 18, and by the time the frequency of the light is low enough to detect the wave pattern the wavelength is longer then the distance between the slits so we can no longer see which slit the electron went through 19.
So have the electrons outsmarted us? Perhaps, but they have also taught us one of the most fundamental lessons in quantum physics - an observation is only valid in the context of the experiment in which it was performed 20. If you want to say that something behaves a certain way or even exists, you must give the context of this behavior or existence since in another context it may behave differently or not exist at all. We can't just say that an electron is a particle, since we have already seen proof that this is not always the case. We can only say that when we observe the electron in the two slit experiment it behaves like a particle. To see how it would behave under different conditions, we must perform a different experiment.

The Copenhagen Interpretation

So sometimes a particle acts like a particle and other times it acts like a wave. So which is it? According to Niels Bohr, who worked in Copenhagen when he presented what is now known as the Copenhagen interpretation of quantum theory, the particle is what you measure it to be. When it looks like a particle, it is a particle. When it looks like a wave, it is a wave. Furthermore, it is meaningless to ascribe any properties or even existence to anything that has not been measured21. Bohr is basically saying that nothing is real unless it is observed.
While there are many other interpretations of quantum physics, all based on the Copenhagen interpretation, the Copenhagen interpretation is by far the most widely used because it provides a "generic" interpretation that does not try to say any more then can be proven. Even so, the Copenhagen interpretation does have a flaw that we will discuss later. Still, since after 70 years no one has been able to come up with an interpretation that works better then the Copenhagen interpretation, that is the one we will use. We will discuss one of the alternatives later.
The Wave Function

In 1926, just weeks after several other physicists had published equations describing quantum physics in terms of matrices, Erwin Schrödinger created quantum equations based on wave mathematics22 , a mathematical system that corresponds to the world we know much more then the matrices. After the initial shock, first Schrödinger himself then others proved that the equations were mathematically equivalent 23. Bohr then invited Schrödinger to Copenhagen where they found that Schrödinger's waves were in fact nothing like real waves. For one thing, each particle that was being described as a wave required three dimensions 24. Even worse, from Schrödinger's point of view, particles still jumped from one quantum state to another; even expressed in terms of waves space was still not continuous. Upon discovering this, Schrödinger remarked to Bohr that "Had I known that we were not going to get rid of this damned quantum jumping, I never would have involved myself in this business." 25
Unfortunately, even today people try to imagine the atomic world as being a bunch of classical waves. As Schrödinger found out, this could not be further from the truth. The atomic world is nothing like our world, no matter how much we try to pretend it is. In many ways, the success of Schrödinger's equations has prevented people from thinking more deeply about the true nature of the atomic world 26.
The Collapse of the Wave Function

So why bring up the wave function at all if it hampers full appreciation of the atomic world? For one thing, the equations are much more familiar to physicists, so Schrödinger's equations are used much more often then the others. Also, it turns out that Bohr liked the idea and used it in his Copenhagen interpretation. Remember our experiment with electrons? Each possible route that the electron could take, called a ghost, could be described by a wave function 27. As we shall see later, the "damned quantum jumping" insures that there are only a finite, though large, number of possible routes. When no one is watching, the electron take every possible route and therefore interferes with itself28. However, when the electron is observed, it is forced to choose one path. Bohr called this the "collapse of the wave function"29. The probability that a certain path will be chosen when the wave function collapses is, essentially, the square of the path's wave function 30.
Bohr reasoned that nature likes to keep it possibilities open, and therefore follows every possible path. Only when observed is nature forced to choose only one path, so only then is just one path taken 31.

The Uncertainty Principle

Wait a minute… probability??? If we are going to destroy the wave pattern by observing the experiment, then we should at least be able to determine exactly where the electron goes. Newton figured that much out back in the early eighteenth century; just observe the position and momentum of the electron as it leaves the electron gun and we can determine exactly where it goes.
Well, fine. But how exactly are we to determine the position and the momentum of the electron? If we disturb the electrons just in seeing if they are there or not, how are we possibly going to determine both their position and momentum? Still, a clever enough person, say Albert Einstein, should be able to come up with something, right?
Unfortunately not. Einstein did actually spend a good deal of his life trying to do just that and failed 32. Furthermore, it turns out that if it were possible to determine both the position and the momentum at the same time, Quantum Physics would collapse 33. Because of the latter, Werner Heisenberg proposed in 1925 that it is in fact physically impossible to do so. As he stated it in what now is called the Heisenberg Uncertainty Principle, if you determine an object's position with uncertainty x, there must be an uncertainty in momentum, p, such that xp > h/4pi, where h is Planck's constant 34 (which we will discuss shortly). In other words, you can determine either the position or the momentum of an object as accurately as you like, but the act of doing so makes your measurement of the other property that much less. Human beings may someday build a device capable of transporting objects across the galaxy, but no one will ever be able to measure both the momentum and the position of an object at the same time. This applies not only to electrons but also to objects such as tennis balls and toasters, though for these objects the amount of uncertainty is so small compared to there size that it can safely be ignored under most circumstances.
The EPR Experiment

"God does not play dice" was Albert Einstein's reply to the Uncertainty Principle. 35 Thus being his belief, he spent a good deal of his life after 1925 trying to determine both the position and the momentum of a particle. In 1935, Einstein and two other physicists, Podolski and Rosen, presented what is now known as the EPR paper in which they suggested a way to do just that. The idea is this: set up an interaction such that two particles are go off in opposite directions and do not interact with anything else. Wait until they are far apart, then measure the momentum of one and the position of the other. Because of conservation of momentum, you can determine the momentum of the particle not measured, so when you measure it's position you know both it's momentum and position 36. The only way quantum physics could be true is if the particles could communicate faster then the speed of light, which Einstein reasoned would be impossible because of his Theory of Relativity.
In 1982, Alain Aspect, a French physicist, carried out the EPR experiment 37. He found that even if information needed to be communicated faster then light to prevent it, it was not possible to determine both the position and the momentum of a particle at the same time 38. This does not mean that it is possible to send a message faster then light, since viewing either one of the two particles gives no information about the other39. It is only when both are seen that we find that quantum physics has agreed with the experiment. So does this mean relativity is wrong? No, it just means that the particles do not communicate by any means we know about. All we know is that every particle knows what every other particle it has ever interacted with is doing.
The Quantum and Planck's Constant

So what is that h that was so important in the Uncertainty Principle? Well, technically speaking, it's 6.63 X 10-34 joule-seconds 40. It's call Planck's constant after Max Planck who, in 1900, introduced it in the equation E=hv where E is the energy of each quantum of radiation and v is it's frequency41. What this says is that energy is not continuous as everyone had assumed but only comes in certain finite sizes based on Planck's constant.
At first physicists thought that this was just a neat mathematical trick Planck used to explain experimental results that did not agree with classical physics. Then, in 1904, Einstein used this idea to explain certain properties of light--he said that light was in fact a particle with energy E=hv 42. After that the idea that energy isn't continuous was taken as a fact of nature - and with amazing results. There was now a reason why electrons were only found in certain energy levels around the nucleus of an atom 43. Ironically, Einstein gave quantum theory the push it needed to become the valid theory it is today, though he would spend the rest of his lift trying to prove that it was not a true description of nature.
Also, by combining Planck's constant, the constant of gravity, and the speed of light, it is possible to create a quantum of length (about 10-35 meter) and a quantum of time (about 10-43 sec), called, respectively, Planck's length and Planck's time 44. While saying that energy is not continuous might not be too startling to the average person, since what we commonly think of as energy is not all that well defined anyway, it is startling to say that there are quantities of space and time that cannot be broken up into smaller pieces. Yet it is exactly this that gives nature a finite number of routes to take when an electron interferes with itself.
Although it may seem like the idea that energy is quantized is a minor part of quantum physics when compared with ghost electrons and the uncertainty principle, it really is a fundamental statement about nature that caused everything else we've talked about to be discovered. And it is always true. In the strange world of the atom, anything that can be taken for granted is a major step towards an "atomic world view".
Schrödinger's Cat

Remember a while ago I said there was a problem with the Copenhagen interpretation? Well, you now know enough of what quantum physics is to be able to discuss what it isn't, and by far the biggest thing it isn't is complete. Sure, the math seems to be complete, but the theory includes absolutely nothing that would tie the math to any physical reality we could imagine. Furthermore, quantum physics leaves us with a rather large open question: what is reality? The Copenhagen interpretation attempts to solve this problem by saying that reality is what is measured. However, the measuring device itself is then not real until it is measured. The problem, which is known as the measurement problem, is when does the cycle stop?
Remember that when we last left Schrödinger he was muttering about the "damned quantum jumping." He never did get used to quantum physics, but, unlike Einstein, he was able to come up with a very real demonstration of just how incomplete the physical view of our world given by quantum physics really is. Imagine a box in which there is a radioactive source, a Geiger counter (or anything that records the presence of radioactive particles), a bottle of cyanide, and a cat. The detector is turned on for just long enough that there is a fifty-fifty chance that the radioactive material will decay. If the material does decay, the Geiger counter detects the particle and crushes the bottle of cyanide, killing the cat. If the material does not decay, the cat lives. To us outside the box, the time of detection is when the box is open. At that point, the wave function collapses and the cat either dies or lives. However, until the box is opened, the cat is both dead and alive 45.
On one hand, the cat itself could be considered the detector; it's presence is enough to collapse the wave function 46. But in that case, would the presence of a rat be enough? Or an ameba? Where is the line drawn 47? On the other hand, what if you replace the cat with a human (named "Wigner's friend" after Eugene Wigner, the physicist who developed many derivations of the Schrödinger's cat experiment). The human is certainly able to collapse the wave function, yet to us outside the box the measurement is not taken until the box is opened 48. If we try to develop some sort of "quantum relativity" where each individual has his own view of the world, then what is to prevent the world from getting "out of sync" between observers?
While there are many different interpretations that solve the problem of Schrödinger’s Cat, one of which we will discuss shortly, none of them are satisfactory enough to have convinced a majority of physicists that the consequences of these interpretation s are better then the half dead cat. Furthermore, while these interpretations do prevent a half dead cat, they do not solve the underlying measurement problem. Until a better intrepretation surfaces, we are left with the Copenhagen interpretation and it's half dead cat. We can certainly understand how Schrödinger feels when he says, "I don't like it, and I'm sorry I ever had anything to do with it."49 Yet the problem doesn't go away; it is just left for the great thinkers of tomorrow.
The Infinity Problem

There is one last problem that we will discuss before moving on to the alternative interpretation. Unlike the others, this problem lies primarily in the mathematics of a certain part of quantum physics called quantum electrodynamics, or QED. This branch of quantum physics explains the electromagnetic interaction in quantum terms. The problem is, when you add the interaction particles and try to solve Schrödinger's wave equation, you get an electron with infinite mass, infinite energy, and infinite charge50. There is no way to get rid of the infinities using valid mathematics, so, the theorists simply divide infinity by infinity and get whatever result the guys in the lab say the mass, energy, and charge should be51. Even fudging the math, the other results of QED are so powerful that most physicists ignore the infinities and use the theory anyway 52. As Paul Dirac, who was one of the physicists who published quantum equations before Schrödinger, said, "Sensible mathematics involves neglecting a quantity when it turns out to be small - not neglecting it just because it is infinitely great and you do not want it!". 53
Many Worlds

One other interpretation, presented first by Hugh Everett III in 1957, is the many worlds or branching universe interpretation54. In this theory, whenever a measurement takes place, the entire universe divides as many times as there are possible outcomes of the measurement. All universes are identical except for the outcome of that measurement 55. Unlike the science fiction view of "parallel universes", it is not possible for any of these worlds to interact with each other 56.
While this creates an unthinkable number of different worlds, it does solve the problem of Schrödinger's cat. Instead of one cat, we now have two; one is dead, the other alive. However, it has still not solved the measurement problem 57! If the universe split every time there was more then one possibility, then we would not see the interference pattern in the electron experiment. So when does it split? No alternative interpretation has yet answered this question in a satisfactory way. And so the search continues…
Further Reading

If you are interested in learning more about quantum physics, here are some books that you could try (check the bibliography for more specific information on the books you are interested in):
Richard Feynman's Lectures on Physics deals with the math associated with quantum physics. If you can understand basic calculus, then this book is for you. Otherwise, while Lectures still provides some valuable information, you may find yourself lost before you get too far.
John Gribbin's In Search of Schrödinger's Cat is an excellent non-mathematical treatment of quantum physics. If you've been watching the footnotes you've seen that much of the data for this paper came from this book. It includes a good history of quantum physics. Be advised that the sections on supergravity and supersymmetry at the end are outdated.
Alastair Rae's Quantum Physics: Illusion or Reality presents the basics of quantum physics in terms of the polarization of light. It's 118 pages, half of which are devoted to a discussion of the alternate interpretations of quantum physics, can easily be read in an afternoon. It spends more time on alternate interpretations then Gribbin's book, but is less detailed in almost every other respect. I suggest reading Gribbin's book first then this book.
Bibliography

Feynman, Richard P., Robert Leighton, and Matthew Sands. The Feynman Lectures on Physics. Addison-Wesley, Reading, Massachusetts: 1965. Vol. 3: Quantum Mechanics.
Gribbin, John. In Search of Schrödinger's Cat. Bantam Books, Toronto: 1984. ISBN 0-553-34103-0
Rae, Alastair. Quantum Physics: Illusion or Reality? Cambridge University Press, London: 1986. ISBN 0-521-26023-3.

rick sumner

Trad climber
reno, nevada/ wasilla alaska
Dec 19, 2013 - 11:25pm PT
Well Ed it may be not very dense, but by virtue of its volume it does have considerable mass. It is not empty or it wouldn't be 1100 degrees because of interception of incoming solar energy by GHG's, ionization, and molecules excited with kinetic energy. So what happened to it as incoming UV dropped precipitously, didn't it lose a significant portion of it's IR to space as well as a significant mass. If so, wouldn't that decrease the pressure on atmospheric layers below with a consequent expansion of those lower layers while aiding in the transfer of gas and energy from those same lower layers to the reduced thermosphere?
Maybe not a high percentage of that which quickly reinflated the thermosphere, but surely a measurable amount. Should i go to the penalty box for trying to think?

Uncivil? i'm merely returning a quanta of the shet i recieve.

EDIT: URL below . No can't calculate and it is negated somewhat by reduced gravity field of Earth at this altitude.

http://archive.is/LGLyv
Wade Icey

Trad climber
www.alohashirtrescue.com
Dec 20, 2013 - 12:45am PT
RE: The Chiefs graphs upthread...

*The Venturi effect is the fluid pressure that results when an incompressible fluid flows through a constricted section of pipe. The Venturi effect may be derived from a combination of Bernoulli's principle and the equation of continuity. The fluid velocity must increase through the constriction to satisfy the equation of continuity, while its pressure must decrease due to conservation of energy: the gain in kinetic energy is supplied by a drop in pressure or a pressure gradient force.
http://en.wikipedia.org/wiki/Venturi_eff...

*Gases are compressible and change volume when placed under pressure or are heated or cooled. A volume of gas under one set of conditions (pressure and temperature) is not equivalent to the same gas under different conditions. References will be made to "actual" flow rate through a meter and "standard" or "base" flow rate through a meter with units such as acm/h, (actual cubic meters per hour) Kscm/h (Kilo standard cubic meters per hour) or MMSCFD (thousands of standard cubic feet per day) . The actual flow rate is the volume flow per time that the meter measured at the pressure and temperature conditions in the meter. The standard flow rate is the volume flow per time that the measured gas would take up if it was under a standard set of conditions. Converting back to a standard allows two measured samples to be compared, even if they were measured under different conditions. The conversion between different pressure conditions is via variations to the Ideal Gas Law .
3
Wade Icey

Trad climber
www.alohashirtrescue.com
Dec 20, 2013 - 01:19am PT
Thanks for proving my point Chief,
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Worms in Poultry - Recognising and Treating Worms
Learning about the life cycle of worms may not seem pleasant but it is one of the most common problems/ailments for poultry and it is really important that you know what to look for and how to treat the birds, as well as learn what preventative measures you can take.

I am not going to blind you with latin names, there are plenty of books and web pages to do that, but I will try and explain simply what they are, how to recognise the symptoms, how to deal with them and how to prevent them ...

Worm infestations should be treated as 'one of those things' that chickens get, for the sake of the bird they should be dealt with, even if thought to be not life threatening. Any kind of poultry worms will impair the health of the bird to some degree, as it would in humans, because the worms are taking the nutrients out of the food of their hosts and you will see weight loss in your birds, or they may not be growing at the rate they should be. Worms can damage the digestive tract of the birds which can lead to other infections. There will be a drop in egg production and the birds may seem 'unwell' and listless.

There are three main internal parasitic worms that affect poultry:


Roundworms

Roundworms are the most common; they look like spaghetti and live in the intestine of the bird. They can affect chickens, turkeys, ducks and geese. There are several types of roundworm e.g. hairworms, threadworms, but the most common is the Large Roundworm. Most birds can live with some infestation but it can result in drop in egg production and weight loss.
Roundworms normally follow a direct life cycle i.e an infected birds releases worm eggs in its dropping where another bird can pick up the eggs; or, they can be picked up by a carrier like an earthworm. They have a 28 day life cycle and can be found not only in the intestine but also in the crop, gizzard or oesophagus. They can even infect the oviduct and be passed out inside the eggs. At maturity they are 3 inches long and can be seen in the dropping if expelled by the bird.


Gapeworms

Gapeworms are a type of roundworm; they attach themselves to the trachea (throat) of chickens where they impair breathing resulting in the birds gasping (gaping). Young birds are particularly susceptible and can become infected by sharing space with wild birds such as pheasants. Fatal if not treated.
Gapeworm is often brought about through an intermediate host i.e. earthworms, snails, slugs can all be carriers of larvae and once ingested by the bird have a life cycle of 14 days. It can also be picked up directly from another bird coughing up the worms on to the ground and then your birds picking it up when scratching the ground.


Tapeworms

Tapeworms are less common and are segmented, ribbon-like, worms. They attach themselves to the wall of the intestine by burying their heads in the lining of the intestine. Their eggs are carried by slugs and snails so free-ranging birds are more susceptible than indoor birds. Heavy infestation can reduce the bird's ability to fight other infections.
Reproduction is from segments of the worm that break off and are passed through the chicken in its droppings where it contaminates the ground for other birds to pick up. Tapeworm larvae can be carried by intermediate hosts, most particularly slugs and snails. They are very hard to see with the naked eye and have a life cycle of 6 weeks.


Worm Hunt

Check the droppings ... ... It really is worth a regular (even if it seems unpleasant) hard look at your chickens droppings. Always think of the adage 'You are what you eat'! On the right, is an image of what healthy dropping should look like so you can make a comparison. Healthy chicken droppings should be fairly firm and rounded with two distinct sections. The largest darker portion should be black, brown and/or grey in colour and the smaller portion should be white (this is the urine) and it will form a cap at one end. As with all advice we give, it is not a precise diagnosis so if you are at all concerned, you should consult a vet who can arrange a worm count of the droppings.

If the droppings are: Green coloured - this could be a dietary imbalance caused by too much green matter or too much protein, or can also be indicative of a more serious internal infection. Veterinary diagnosis is recommended if you reduce the green in their diet but it makes no difference.
Yellow coloured - loose yellow droppings which will normally stick to the feathers of the birds bottom are most often a sign of internal worms. It can also be that the birds have a diet rich in corn or maize but in our experience it is usually worms. It could also point to a respiratory infection but there would be other signs with this kind of problem.
This is not to be confused with Caecal droppings which are brown and foamy and expelled roughly every 7-10 droppings - perfectly normal.
Black, runny and sticky - Can point to nutritional deficiency. Revisit their diet and feed only layers pellets ad lib with treats of corn twice a day for two weeks to see if this improves their droppings. Stop all other treats for this period.

Other signs are:- worms visible in the droppings; mucky bottoms; dishevelled, depressed appearance; weight loss; drop in egg production; pale comb.


Treatment of worms
If you suspect worms then the chemical answer is to use a recognised, licensed, anthalmintic (wormer) like Flubenvet or Solubenol. These are the only wormers licensed for poultry through the Animal Veterinary Medicines Authority and you will need a prescription from a vet, or to 'sign' a POM-VPS declaration form on a website. Please be careful when buying online that the company you buy from actually have an SQP (Suitably Qualified Person) to dispense Flubenvet. Beware of any online company that does not ask you to complete a form or give the SQP information before purchase, as always, there are some unscrupulous companies out there and you may not get the genuine thing. FSF do not have an SQP so cannot sell Flubenvet.

Flubenvet should be used twice a year, spring and autumn, to rid your birds of worms or more often if advised by your vet. It is the only wormer that will kill Gapeworm and if this is suspected, give Flubenvet immediately. Follow any instructions for meat withdrawal, although the Flubenvet 1% does not now need an egg withdrawal period.

Other products are available e.g. Ivermectin drops and Piperazine. These are not licensed for poultry at this time, but are widely used by vets for poultry (and do not need to be dispensed by an SQP). Ivermectin is applied with drops to the skin and works against internal and external parasites whilst Piperazine will kill roundworm.

The natural answer, which many people prefer, is regular use of an herbal product. These will not kill Gapeworm but can help prevent other worms. There just a couple worth mentioning. Neither is 'licensed' to say it is a poultry 'wormer' so cannot label the product as such. Verm-X Pellets for Poultry is the most widely used, especially in organic systems, and comes in liquid or pellet form. It is administered for 3 days out of every month throughout the year. Opinion is divided as to its effectiveness with the Janssen Company (makers of Flubenvet) saying it does not kill worms, and Paddocks Farm
(makers of Verm-X Pellets for Poultry) producing lots of evidence that it does.
Verm-X Pellets for Poultry does have some well-known poultry experts supporting it.

New to the market this year from Net-Tex is their Herbal Gut Conditioner which again, is not licensed as a poultry 'wormer', but is marketed as a wormer for poultry. We think the best approach is to use one of the herbal products on a regular basis as per instructions and then, if worms are still suspected, especially Gapeworm, use the chemical answer of Flubenvet. Herbal products will not kill Gapeworm.

Also new this year from Net-Tex is what we think is a great solution to the problem of contaminated ground. Leaving your birds on the same small area of ground for prolonged periods is the primary cause of worms. Net-Tex Ground Sanitising Powder can be sprinkled on the ground most frequently used by the birds, and will kill the worms from larvae stage to full grown. Brilliant product!

Prevention is better than cure
Some simple preventative measures can help save a great deal or worry and loss of birds.

Give them clean ground regularly. Never allow them to stay on bare earth for long periods, the ground will become 'fowl sick' and harbour countless worm larvae, bacteria and potential infections.

If in a fixed Run then move it regularly to new ground, or if you are not able to move the run then consider a surface that can be cleaned with disinfectant (not concrete please, not a natural surface at all). Using a loose hardwood woodchip surface for example and then make a watering can mix of Virkon disinfectant, or
Bi-OO-Cyst Coccidial disinfectant, to regularly (fortnightly) water the ground is a good solution. When dry, follow up with Net-Tex Ground Sanitising Powder.
wilbeer

Mountain climber
honeoye falls,ny.greeneck alleghenys
Dec 20, 2013 - 05:27am PT
Is there something to this?

http://fallmeeting.agu.org/2013/general-information/thank-you-to-our-sponsors/

I believe there is,Big Oil supporting AGW gatherings.Could they just be getting on science's good side.

Do they know something that we do not? I believe they are realizing that in the distant future,their long term business plans,are in jeopardy.

I know they are putting a bit of resources into NG .Alternatives? I doubt it.More Greenwashing,or is it backpedaling,Public pressure?

It is comedy that Rick or the Chef would attack someone with this
angle.Do they know why Big Oil ,suddenly supports AGW?

It really looks silly to throw that link above out there as some kind of condemnation of science.

Will Big Oil use this to "scare" their consumers,or,rather are they coming to their senses.Becoming responsible people,or are they corporations ,barking up another angle to capitalize?
wilbeer

Mountain climber
honeoye falls,ny.greeneck alleghenys
Dec 20, 2013 - 07:17am PT
Flood warnings for the second time this month,after a record cold day or two.

Kayaking again.

We lost our snowpack twice since Thanksgiving.It will be 60 here today,-4 ,one week ago.

Then, sunday another Arctic blast will come .Meteorologist's are uncertain,rain,freezing rain,snow.

All Normal.
monolith

climber
SF bay area
Dec 20, 2013 - 11:29am PT
Wade Icey

Trad climber
www.alohashirtrescue.com
Dec 20, 2013 - 11:47am PT
If the droppings are: Green coloured - this could be a dietary imbalance caused by too much green matter or too much protein, or can also be indicative of a more serious internal infection. Veterinary diagnosis is recommended if you reduce the green in their diet but it makes no difference.
Yellow coloured - loose yellow droppings which will normally stick to the feathers of the birds bottom are most often a sign of internal worms. It can also be that the birds have a diet rich in corn or maize but in our experience it is usually worms. It could also point to a respiratory infection but there would be other signs with this kind of problem.
This is not to be confused with Caecal droppings which are brown and foamy and expelled roughly every 7-10 droppings - perfectly normal.
Black, runny and sticky - Can point to nutritional deficiency. Revisit their diet and feed only layers pellets ad lib with treats of corn twice a day for two weeks to see if this improves their droppings. Stop all other treats for this period.

Other signs are:- worms visible in the droppings; mucky bottoms; dishevelled, depressed appearance; weight loss; drop in egg production; pale comb.
monolith

climber
SF bay area
Dec 20, 2013 - 12:04pm PT
And you don't complain when Sketch drags over the latest from Bob Tisdale and wattsupwiththat?

What's up with that?
Wade Icey

Trad climber
www.alohashirtrescue.com
Dec 20, 2013 - 12:06pm PT
Neuroradiology methods are used in modern neurosurgical diagnosis and treatment, including computer assisted imaging computed tomography (CT), magnetic resonance imaging (MRI), positron emission tomography (PET), magnetoencephalography (MEG), and the stereotactic surgery. Some neurosurgical procedures involve the use of MRI and functional MRI intraoperatively.
Microsurgery is utilized in many aspects of neurological surgery. Microvascular anastomosis are required when EC-IC surgery is performed. The clipping of aneurysms is performed using a microscope. Minimally invasive spine surgery utilizes these techniques. Procedures such as microdiscectomy, laminectomy, and artificial discs rely on microsurgery.[6]
Minimally invasive endoscopic surgery is utilized by neurosurgeons. Techniques such as endoscopic endonasal surgery is used for pituitary tumors, craniopharyngiomas, chordomas, and the repair of cerebrospinal fluid leaks. Ventricular endoscopy is used for colloid cysts and neurocysticercosis. Endoscopic techniques can be used to assist in the evacuation of hematomas and trigeminal neuralgia. Repair of craniofacial disorders and disturbance of cerebrospinal fluid circulation is done by neurosurgeons, and depending on the situation, maxillofacial and plastic surgeons. Conditions such as chiari malformation, craniosynostosis, and syringomyelia are treated. This is called cranioplasty.
Neurosurgeons are involved in Stereotactic Radiosurgery along with Radiation Oncologists for tumor and AVM treatment. Radiosurgical methods such as Gamma knife, Cyberknife and Novalis Shaped Beam Surgery are used.[7]
Neurosurgeons have begun to utilize endovascular image guided procedures for the treatment of aneurysms, AVMs, carotid stenosis, strokes, and spinal malformations, and vasospasms. Also, nonvascular procedures such as Vertoplasty and Kyphoplasty are used by neurosurgeons. Techniques such as angioplasty, stenting, clot retrieval, embolization, and diagnostic angiography are utilized.[8]
monolith

climber
SF bay area
Dec 20, 2013 - 12:09pm PT
From Bob Tisdale's site:


roflmao!
monolith

climber
SF bay area
Dec 20, 2013 - 12:37pm PT
LOL, Sketch, it was The Chief who brought up the blog source subject up.

Is it ok with you if I respond, Sketch?

monolith

climber
SF bay area
Dec 20, 2013 - 12:47pm PT
How do you think statisticians make money, Chief.

They analyze data.
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