A new understanding of the solar dynamo published

…research at Stanford’s Hansen Experimental Physics Laboratory.
Please tell me this place isn’t named after James Hansen.

pinroot says:
August 29, 2013 at 9:55 am
…research at Stanford’s Hansen Experimental Physics Laboratory.
http://en.wikipedia.org/wiki/W._W._Hansen

However, on the other hand, solar convection simulations have shown the possibility of multi-cell circulation with a shallow equatorward flow (e.g.,Miesch et al. 2006; Guerrero et al. 2013), demonstrating that our analysis results are reasonable.
They’re validating their results, which are supposedly based on observational results, with simulations?! Like “our interpretation of the readings must be correct because someone already modeled something similar”? Shouldn’t it be the other way around?

The Hansen Experimental Physics Laboratory was founded in 1947. At that time James Hansen was six years old.

It’s funny to me to see people who do such a good job criticizing the use of models – computer games – in place of science in the global warming debate embrace the same use of models – comparable computer games – in place of science in solar physics.

Thanks Dr. S and Anthony, I always enjoy reading about the Sun and, of course, Dr. S’s comments!

Dr. Lurtz says:
August 29, 2013 at 10:18 am
What is your theory of the 180/360 year cycles?
There aren’t any.
Zeke says:
August 29, 2013 at 10:29 am
Currents generate magnetic fields.
In a plasma, movement of the matter in an existing magnetic field generates the electrical currents.
Bart says:
August 29, 2013 at 10:35 am
In the end, it will be determined that there are two fundamental processes with periods of approximately P1 = 20 and P2 = 23.6 years which beat together
Bart, we are trying to discuss science here. So, perhaps, you should not expose your ignorance yet again.

Dr. Lurtz says:
August 29, 2013 at 10:41 am
you are one of those statisticians, not a real solar scientist.
and you are?

Solar science — careful observation doesn’t match model, model needs revision.
Climate science — careful observation doesn’t match model, wave hands, claim missing data is travesty, point with alarm at what might happen according to the model
It’s all so clear to me now.

Fascinating story about our closest star. The term “Doppler radar” is used incorrectly, I suspect. It appears that the scientists are creating images similar to Doppler radar, but other techniques are used to generate the images.

RHL says:
August 29, 2013 at 11:09 am
The term “Doppler radar” is used incorrectly, I suspect.
Every analogy is halting at some point. What we observe is that the solar surface ‘bobs up and down’ [because of waves in the material]. So patches of the solar surface is coming toward us [and is blue-shifted] and other patches are moving away from us [and is red-shifted]. The Doppler map shows where the blue-shifted and red-shifted patches are. Analysis of the pattern allows us to say something about the solar interior [just like seismic waves from earthquakes – or artificial explosions – do], so the ‘Doppler’ designated is very appropriate.

Jim G says:
August 29, 2013 at 11:19 am
I was merely asking you to clarify your comment, the condescension was unnecessary.
Perhaps you could appreciate that my comment about ‘theory’ has applicability to other people’s use of the term [.e.g a certain Dr. L].

The movie above (with only a cross-section shown) doesn’t show the compression of flow streamlines that has to occur as one moves towards the poles. Surely this creates some sort of instability. I would not claim this is the cause of the butterflies, but I wouldn’t be surprised if there were some visible sign of a turbulent instability as the plasma is effectively compressed as it flows north.
Hmmm, a second source of instability occurred to me. Northbound currents “should” be deflected spinward by Coriolis forces, should they not? Southbound currents “should” be deflected antispinwards. There are no continental boundaries so shouldn’t the entire flow pattern be surface-skewed, accelerating, to the right, spiral around at the poles before “going down the drain” there, and come back, depth skewed towards the left, so that the northbound and southbound expresses cross at some angle across the defect plane. There’s a source of serious turbulence right there, especially when one has to factor in magnetohydrodynamics and this motion occurs in a magnetic field.
rgb

“This new picture of the solar interior meridional circulation differs substantially from the previously widely believed picture of a single-cell circulation with the equatorward flow near the bottom of the convection zone [the Conveyor Belt Model].”
Indeed, very interesting… One wishes many including the good doctor were as willing to correct their antiquated vision of Earth atmospheric circulation…

If the text “… some computer models projected…, but observations have since showed it is actually….” were to be applied in climatology, what do you reckon the reaction would be? D-words, anybody?

The solar predictions have been almost as bad as AGW theory.

Many think it is the angular mometum exerted by the planets. Count me in on this theory, and out on this latest study.

The use of models compares to the use of reasoning. Neither models nor reasoning are intrinsically good or bad. Their quality and relevance comes from their constructive properties and congruity with real phenomena.

Steven Mosher says:
August 29, 2013 at 10:54 am
For the fisrt time in several years I TOTALLY agree with Mosher. STOP IT.

What a pleasure it is to see real science. Congratulations to Dr. Svalgaard and his colleagues.

I want to see solar predictions going forward from these people and then we will see how much or little of an understanding they have about the solar dynamo.
Back up this study with precise predictions. Not one prediction.
Leif made predictions on solar flux and ap index going out to year 2015 which I appreciate. They(STANFORD SOLAR SCIENTIST ) need to do the same.

LEIF, some of the solar predictions were good but as the article points out many predicted based on some computer models that this current solar cycle would be strong..
Infact many more from the mainstream(not all however) approach were callng for this cycle to be strong, then those who subscribe to the angular mometum theory.

Top cell’s 15m/s velocity as quoted gives 1.2 solar circumference for 11 year cycle, which appear to be far [too] fast.
Velocity of about 6m/s (~0.5 of solar circumference) would be of right order for generating 11 year sunspot cycle ( for 22 year magnetic cycle about 3m/s).
That said, if the above meridional flow hypothesis explains solar magnetic cycle, it still doesn’t tell anything about sunspot generation and even less about such important matter as the Grand minima. I expect further progress, but until then I’ll stick with ‘magnetospheric feedback’ hypothesis for the solar magnetic cycle:
http://www.vukcevic.talktalk.net/LFC2.htm
which gives both magnetic cycle and the forthcoming Grand minimum. I am sure none of the experts in field will agree, but again the sun wouldn’t care too much about that.

Dr. Svalgaard,
Thanks for the reply. As I said, I’m not saying the sun is powered by recombination. I just want to build a model of a star powered by recombination to see what the results would be. Recombination is not covered in the plasma textbook I have and I’ve had little success in tracking down online papers covering recombination.
Again, thanks for your reply and thanks for sharing the article about new information about the sun with us.

Leif Svalgaard says;
‘on the other hand there may be readers that need a suitable warning about the spreading of this kind of stuff.’
You are perfectly correct. I, at least, who visit here regularly need rubbish exposing as, rubbish as my science education is often inadequate to pick out the untruths. Thank you.

Leif Svalgaard says:
August 29, 2013 at 10:40 am
“Bart, we are trying to discuss science here.”
You try, I succeed.
HenryP says:
August 29, 2013 at 11:59 am
“@Bart
Don’t let these so called professionals here intimidate you! Just keep following your own results.”
Thanks but, don’t worry. Eventually, he will either learn how it works and realize that it’s been staring him in the face all along, or someone else will. Anyone with a moiety of skill in the appropriate subjects will recognize what this means.

.
Let us see what the temperatures do going forward and how the sun behaves going forward and if any correlations come about as a result, and then take it from there.
I want to see results not talk which is all we are getting.
Make the predictions and stand by them, a study or talk without being backed up by predictions, is meaningless.
Put the money where the study is and make the prediction and stand by the prediction.
I hate excuses and changes once a prediction is made. Don’t make it if you can’t stand by it.

Question.
If I were “standing” on the “surface” of the sun, how much would I weigh ?
(assuming 160lb of mass).
I know, but what would be the potential ?

“””””……Stanford solar scientists solve one of the sun’s mysteries……””””””
“Solve” ??? I couldn’t find that in my compendium of weasel words.
Damn nice to see an announcement, where the informants, have confidence in the correctness of their new(er) model.
I’ve been there and done that (in a much more minor situation) and it is always a thrill, to be able to say with confidence; “We figured this thing out correctly.”
It’s not too often that Dr Svalgaard asserts that the sun is actually doing something; so this must be the real thing. Izzat a sort of solar “Hadlee Cell” thing Leif. (except in a layered direction) ? Seems like there must be some sort of angular momentum value, that suddenly got itself adjusted to a new value. Darned if I can guess whether up or down though.

Leif Svalgaard says:
I think the . (Dr. Svalgaard’s) prediction of 10 years ago is holding up quite well: 75+/-8….
…….
You are . (Vukcevic) one of those who pollute these pages by spreading garbage.
Hey Doc
Are you worried that my ‘garbage’ produces superior results to the Stanford science?
Let’s see, your hypothesis is based on the PF max time which was not reached until 2006 Your paper http://www.leif.org/research/Polar%20Fields%20and%20Cycle%2024.pdf
is also dated 2006, so you could not make prediction in 2003, the PF was 3 years off its maximum
I wrote the equation in the early part of 2003 (published 8th January 2004)
http://www.vukcevic.talktalk.net/LFC2.htm (indicated by red arrow) when it was not known future course of the PF, while Hathaway and Dicpati were talking large numbers.
Equation has proved itself up to date, may fail in the future but that remains to be seen. You may call it garbage but so far so good.

“””””…..Arthur says:
August 29, 2013 at 12:11 pm
There were may solar scientist who thought Solar Cycle 24 was going to be very active,
Now that its half over and significantly lower than what was projected 10 years ago I find it difficult to understand how you Dr, Svalgaard can still defend that position, You personally may not have predicted an active cycle 24 but many other solar scientists did……..”””””
Isn’t that the process that one is supposed to follow in science ?
If you make predictions on the basis of your (current) model, and then new lines of evidence suggest that a different model is more accurate; this is like having your foot on the gas, and suddenly realizing there’s a concrete wall in your way. Common sense dictates that you at least take your foot off the gas, and preferably steer in a different direction that is more likely to succeed.
I don’t see any contradiction to complain about. If you realize that the flow has a different structure from your previous models said; well you shift horses to what your evidence tells you is a more real model or structure.
Quite often, the most valuable research discovery, is the discovery that you have no business continuing down the previously preferred path, and should shift to a new one.

Time will tell. This decade is going to very interesting.

Bart says:
August 29, 2013 at 1:55 pm
“A part of the D&K syndrome is that you don’t even know it.”
Precisely.
Including your denial of your incompetence. In any event you are not bringing anything to the table in this thread. Perhaps you should refrain from embarrassing yourself any further.

Leif Svalgaard @ vukcevic
Garbage it was and still is.
May be, may be, but in this ‘muck’ of mine there’s shiny bit of brass ,
Beats your prediction by 3 years, and foretold not only low SC24 and even lover SC25, but also what no one else did in 2003, a Grand Minimum in the late 2020s.
Neither you or Stanford can match it, stand it or accept that a true amateur could do it
Bye.

Leif Svalgaard says:
August 29, 2013 at 1:39 pm
=============
“If I were “standing” on the “surface” of the sun, how much would I weigh ?”
27 times as much as you would weigh on the surface of the Earth.
———————
Thanks Leif,
Now what if I was an Earth radius from the sun’s center of mass ?
How many times would it be ?
Just trying to get a feel for it 🙂

“That would indicate the presence of a electric field accelerating the plasma from 0 to to a couple of million degrees by the time it reaches the corona…”
“Leif- If there was such an electric field it would be neutralized by the plasma, so no electric field.”
The only other option you have Leif, is a magnetic field… Which doesnt do nearly the job of an electric field of accelerating ions and electrons.
How does a plasma tube work? Wheres the electric field in a plasma tube? The most energy efficient way of making a plasma is direct acceleration by electric field. You can get to GeV in inches. See wakefield accelerators.
Neutral?! atoms sprinkled among the plasma?? Hahaha…. Have you even looked at the MDI and HMI movies?? They use the “Bilderberg” model of solar atmosphere to determine WHY that neutral iron is there… Its just a model. Its doesnt really tell you why and what the iron is there.
“Iron, with its partly filled 3d subshell, has, by far, the largest number of lines all over the spectrum of a typical late-type star. This atomic property coupled to a relatively large abundance makes it a reference element for spectroscopic estimates of stellar parameters.”
“Specifically, the Fe I line is able to determine field strength, longitudinal and transverse flux four times more accurately than the Ni I line in active regions. Inclination and azimuthal angles can be recovered to ≈2° above 600 Mx cm−2 for Fe I and above 1000 Mx cm−2 for Ni I. Therefore, the Fe I line better determines the magnetic-field orientation in plage, whereas both lines provide good orientation determination in penumbrae and umbrae.
We selected the Fe I spectral line for use in HMI due to its better performance for magnetic diagnostics while not sacrificing velocity information.”
http://arxiv.org/pdf/astro-ph/0608124.pdf
Brant

Leif Svalgaard says:
August 29, 2013 at 11:50 am

Salvatore Del Prete says:
August 29, 2013 at 11:42 am
Many think it is the angular mometum exerted by the planets. Count me in on this theory, and out on this latest study.

…
Never let observations interfere with your beliefs, …
…

Dr. Svalgaard,
This is king of tongue-in-cheek but, for those who believe that the angular momentum of the planets is IMPORTANT – and if the energy from the interior of the sun takes 250,000 years to reach the surface – would not those angular momentum believers have to base their theories [assertions?] on the positons of the planets as they were 250,000 years ago rather than current planetary positions?

Brant Ra says:
August 29, 2013 at 2:26 pm
Wheres the electric field in a plasma tube?
It comes from an external power source. Turn of the power and see what you get.
Neutral?! atoms sprinkled among the plasma??
Its doesnt really tell you why and what the iron is there.
Spectroscopy has been a mature science for many decades. We know rather precisely how much iron there is in the sun: namely 1 iron atom per 25,000 hydrogen atoms. The iron atoms are neutral because the temperature is not high enough to ionize them. Even for Hydrogen, only one out of 10,000 atoms are ionized. The conductivity of the photosphere is like that of sea-water. Not particularly high. It is still a plasma because the length scale is so large.
F. Ross says:
August 29, 2013 at 2:28 pm
This is kind of tongue-in-cheek but, for those who believe that the angular momentum of the planets is IMPORTANT – and if the energy from the interior of the sun takes 250,000 years to reach the surface – would not those angular momentum believers have to base their theories [assertions?] on the positons of the planets as they were 250,000 years ago rather than current planetary positions?
You have to ask them, but it doesn’t really matter because there is no exchange of angular momentum between the planets and the sun

Leif Svalgaard says:
August 29, 2013 at 11:22 am
Jim G says:
August 29, 2013 at 11:19 am
I was merely asking you to clarify your comment, the condescension was unnecessary.
“Perhaps you could appreciate that my comment about ‘theory’ has applicability to other people’s use of the term [.e.g a certain Dr. L].”
Understood. Sorry for “stooping to your level” in my reply but it is so difficult not to.

vukcevic says:
August 29, 2013 at 3:02 pm
Here is full Abstract from Ken Schatten’s paper (since your link failed)
Yoy can lay off the snide comment. Everybody knows that WordPress mangles links. All you have to do is to copy the link and paste it in another window.
There is qualification “If this trend continues,…..” which may or may not, hedging the bet …
In Science there are always qualifications.
In my case there is no “If”
In pseudo-science there are no ‘ifs’ or ‘nuts’, so you fit right in.
it accurately plots the solar activity evolution path
No, it is only curve fitting and it fails going back in time, but all that we have gone over too many times to arouse any further interest.

Jim G says:
August 29, 2013 at 3:02 pm
Understood. Sorry for “stooping to your level” in my reply but it is so difficult not to.
You have to stoop low to reach some bottom dwellers.

Katherine says:
August 29, 2013 at 10:18 am
…
They’re validating their results, which are supposedly based on observational results, with simulations?! Like “our interpretation of the readings must be correct because someone already modeled something similar”? Shouldn’t it be the other way around?
Science inherently depends upon “models.” The entire effort of science is to develop understandings of natural processes that are “complex enough” to offer understanding of how a given process interacts with other natural systems (to yield predictions of the behaviour of the systems under study). Occam’s Razor asks that such explanations (models) be no more complex than necessary. The problem in climate science is not “computer models,” but rather the scientific explanations upon which the models are built. The science is not “complex enough” to be useful.

Robertv says:
August 29, 2013 at 3:17 pm
these are the only places where there is no deviation of the energy coming from the center of the star.
The meridional circulation [years] is too slow to make any significant difference [it takes only a couple of weeks for the energy to bubble up though the convection zone], but there probably is a small temperature difference.
If fusion in the core is what powers the Sun ,coronal temperatures (1,000,000 K) should not be higher than surface temperatures (5778 K)
No, as the heating of the corona is due to completely different processes: local explosions and the temperature in an explosions is usually much higher than its surroundings. But you miss the point:
fusion generates neutrinos of different energies and amounts. We can calculate [because we know the atomic physics involved – we measure that in the laboratory] that, and compare to what we actually observe on the Earth, and the amounts agree with the calculations [after allowance for the (also measured) neutrino oscillations http://en.wikipedia.org/wiki/Neutrino_oscillation ]

Leif Svalgaard says:
August 29, 2013 at 3:38 pm
also true, but you have to take it in the context of the angular momentum ‘theory’ which posits that solar rotation [or circulation within the Sun] is changed by the planets’ influence on the sun’s orbital angular momentum and hence solar activity.

Yes, that is exactly what I addressed in my previous post.

rgbatduke says:
August 29, 2013 at 11:32 am
….so that the northbound and southbound expresses cross at some angle across the defect plane. There’s a source of serious turbulence right there, especially when one has to factor in magnetohydrodynamics and this motion occurs in a magnetic field.
I presume you mean that this would occur uniformly around particular (internal) circumference.
If not so, then you may have solved another known ‘unknown’, which you may or may not be aware of; i.e. the sun exhibits pronounced magnetic bulge, which slowly (over period of number of cycles) drifts along heliocentric longitude, as shown in this illustration:
http://www.vukcevic.talktalk.net/LFC7.htm

Leif Svalgaard says:
August 29, 2013 at 4:05 pm
I really do not want to continue this conversation. But, I am going to leave one parting message.
“The processes that govern the sun are multi-faceted and various and contingent on many random events and cannot be described a simple differential equation.”
This is trivially untrue from the data alone. In fact, it is very common to solve complicated partial differential equations, whether randomly or deterministically driven, using modal expansion. Generally, some modes tend to be dominant.
“I take offense to the ‘bombast’ bit.”
Chill out. It’s not like I called you incompetent or anything. Try to deal with it in a constructive manner.

Bart says:
August 29, 2013 at 4:32 pm
This is trivially untrue from the data alone. In fact, it is very common to solve complicated partial differential equations, whether randomly or deterministically driven, using modal expansion. Generally, some modes tend to be dominant.
This is where your trivially false hammer view comes in; the sun cannot be described by partial differential equations having a few [or only two as you will have it] dominant modes. In this assumption you show indeed incompetence.

Leif Svalgaard says:
August 29, 2013 at 3:23 pm
” I feel a bit silly having to explain this, but there you have it.”
=========================
“we” come here looking for answers, even explanations, but there is no need to explain.
There is always the next comment/link to absorb.

ClimateForAll says:
August 29, 2013 at 4:44 pm
I find it difficult to imagine that these currents could be confined to a depth at 100,000 km.
http://rationalwiki.org/wiki/Argument_from_incredulity

Leif Svalgaard says:
August 29, 2013 at 4:47 pm
When answer is given, “you” say ‘wait a minute’…
=======
That wasn’t me Leif,
I do listen, that is why I am here.

Leif Svalgaard says:
August 29, 2013 at 4:42 pm
“The sun cannot be described by partial differential equations having a few [or only two as you will have it] dominant modes.”
What a silly thing to say. It is readily apparent in the data.

kadaka (KD Knoebel) says:
August 29, 2013 at 5:09 pm
============
Kinda what I was thinking, Leif didn’t seem to want to play my game.
Not that I blame him.
Now I’m really confused 🙂
The deeper one goes into any gravity well, the more it “weighs” ?

From u.k.(us) on August 29, 2013 at 5:39 pm:

The deeper one goes into any gravity well, the more it “weighs” ?

In the classical treatment of all masses as dimensionless points, which greatly simplifies the math, sure, the closer you get to the point the more you weigh. Force of gravity is calculated from the inverse of the square of the distance, so halve the distance and quadruple the force.
Here’s an intro to Newton’s Universal Law of Gravitation (aka Law of Universal Gravitation, go figure). Bit simple, you can always try Wikipedia.
(Yes, this is classical physics, not the relativity-invoking stuff.)
But when it’s not a point mass, as when starting on the surface of a sphere and moving to the center, it gets messier. There is mass above and below, the competing gravitational forces cancel out. Your weight goes down. By the time you hit the center of mass, it all cancels out, you cease having weight.
For Earth, the upper crustal stuff is much less dense than the stuff below. So as you drop down past the surface, your weight will slightly increase as you get closer to the higher-density stuff below. But soon your weight will be dropping as you continue traveling to the center.
With the Earth’s different layers of different densities and thicknesses, with density as a function of depth, and layers of changing composition, finding weight (or total force of gravity) on Earth from surface to center is an interesting math exercise, much integration, a computed numerical solution needed.
That big ball of plasma should be much easier to figure out.

From u.k.(us) on August 29, 2013 at 6:18 pm:

It seems it might also give rise to free-floating gobs of magma in the earth’s interior ?

Hell no. Too much pressure compressing what’s there. Depending where you’re looking, the pressure is enough to compress liquids to solids, but there’s enough temperature at the center to liquefy what pressure made solid.
Everything is held together as close to a solid mass as it gets. Anything that’s technically liquid, sure ain’t like water, more like thicker than the thickest asphalt you’ve ever known existed.
So no free-floating magma gobs. I’m sorry, I know it’d make for good sci fi, but still, no.

How high is the stack of books?

kadaka (KD Knoebel) says:
August 29, 2013 at 5:09 pm
I see that as soon as I barely move outward from the center, the difference quickly grows and so does my weight. Very soon I’d be at 500 times my Earth weight!
In fact, if you are 10 Earth radii out you’d be at 200 times your weight on Earth. The thing is that density does not decrease very fast with distance [as long as you deep within the Sun], but the mass increases with the cube of distance, divided by the square of the distance to get the weight, so ten times further out your weight is 290 times Earth weight, which must be decreased a bit [about to 200x] because the density does decrease a bit.
But on the Sun, in the example, there would be so much mass overhead, that would also exert gravitational forces, that I cannot see how it would still sum to 29 times Earth
The mass overhead doesn’t matter. Newton proved that.
Bart says:
August 29, 2013 at 5:25 pm
What a silly thing to say. It is readily apparent in the data.
This is where your incompetence shows. Live with it. Often, one cannot transfer competence nilly-willy from field to field. You are a victim of that, but don’t know it [in good D&K style]
ClimateForAll says:
August 29, 2013 at 5:26 pm
You’re not still holding a grudge are you?
I never hold grudges. If needed, I get even right away 🙂
u.k.(us) says:
August 29, 2013 at 5:39 pm
The deeper one goes into any gravity well, the more it “weighs” ?
No, the weight usually goes up in the beginning, to a maximum, then declines to zero at the very center.
wayne says:
August 29, 2013 at 5:56 pm
Wait, that is unless Leifs 29x density *at that distance from the sun’s center* was correct, then he’s right, all shells above you are meaningless, they all cancel.
The density is correct. The Sun’s radius is 110 times the Earth’s, so within the first 1/110th of the Sun the density does not vary significantly, so I used the central density.
RACookPE1978 says:
August 29, 2013 at 6:36 pm
And, is a mere 29x gravity enough for that?
What is important is the pressure and THAT depends on the weight of all the mass overhead.
Brian H says:
August 29, 2013 at 7:17 pm
In both hemispheres, north to south? To the “poles”? How does that work, again?
In both hemispheres to the pole in that hemisphere. See the movie at the beginning of the posting.

Leif Svalgaard says:
August 29, 2013 at 7:49 pm
u.k.(us) says:
August 29, 2013 at 7:32 pm
I meant the gobs that are free-floating near the center of the earth in zero gravity
The Earth has a SOLID inner core, so no free-floating gobs.
——————–
Not even some sort of plasticized solid ?, the Titanic sank after hitting ice which we know can flow.

I said on August 29, 2013 at 5:09 pm:

With a perpendicular plane through the radius at 0.009160 solar radii from the center, the mass below minus the mass above would yield 29 Earth masses, if we were using point masses on the radius.

That is an error. It may be the net gravitational effect of 29 Earth masses as the difference, but that is not that many actual masses difference.

u.k.(us) says:
August 29, 2013 at 8:25 pm
The kind of pressure that can make rocks do this ?
The inner core is a crystal and does not flow.
Where does the pressure come from ?
From the weight of 6370000 meters of rock and iron

From Leif Svalgaard on August 29, 2013 at 7:47 pm:

But on the Sun, in the example, there would be so much mass overhead, that would also exert gravitational forces, that I cannot see how it would still sum to 29 times Earth
The mass overhead doesn’t matter. Newton proved that.

Would it have helped if I had said IN the Sun? It’s obvious then the mass overhead does matter. From a plane bisecting the Sun, the mass “overhead” does matter as at the center it will cancel out the gravitational force of the mass “underneath”. Move the plane outwards along a radius, up until you clear the Sun, the solar mass overhead still matters as its gravitational force will be partially counteracting that of the solar mass underneath.
And Newton proved it doesn’t matter? It has been awhile since I got my BA in Physics, that did not get used. Perhaps I forgot it. Got a link to an explanatory text?

For the lovers of Geomagnetic Cycles:
Previously when researching the Earth’s core, I found new research showing it rotated far slower than previously thought, hardly turning at all.
Now the researchers have done it again, and found something even more improbable, variable speed.
http://phys.org/news/2013-05-earth-center-sync.html

Earth’s center is out of sync
May 13, 2013
(Phys.org) —We all know that the Earth rotates beneath our feet, but new research from ANU has revealed that the center of the Earth is out of sync with the rest of the planet, frequently speeding up and slowing down.
Associate Professor Hrvoje Tkalcic from the ANU College of Physical and Mathematical Sciences and his team used earthquake doublets to measure the rotation speed of Earth’s inner core over the last 50 years.
They discovered that not only did the inner core rotate at a different rate to the mantle – the layer between the core and the crust that makes up most of the planet’s interior – but its rotation speed was variable.
“This is the first experimental evidence that the inner core has rotated at a variety of different speeds,” Associate Professor Tkalcic said.
“We found that, compared with the mantle, the inner core was rotating more quickly in the 1970s and 1990s, but slowed down in the 80s. The most dramatic acceleration has possibly occurred in the last few years, although further tests are needed to confirm that observation.
…

Lately the Sun’s magnetic field has decreased, while the inner core has dramatically sped up.
Faster rotation 1970’s and 1990’s, slowed down in 1980’s, and also apparently was slow in the 2000’s.
Who’s going to be the first to claim a tie to the approximately 11-yr sunspot cycle?
Who already has these rotational speed changes clearly visible in their already-published graphs and charts?

kadaka (KD Knoebel) says:
August 29, 2013 at 9:06 pm
Lately the Sun’s magnetic field has decreased, while the inner core has dramatically sped up.
Faster rotation 1970′s and 1990′s, slowed down in 1980′s, and also apparently was slow in the 2000′s. Who’s going to be the first to claim a tie to the approximately 11-yr sunspot cycle?
Who already has these rotational speed changes clearly visible in their already-published graphs and charts?
The 1970s solar activity was lower than that of the 2000s.
The outer core is effectively a superconductor and does not allow any magnetic fields to penetrate more than a few meters into the outer core, thus screening the inner core from any external magnetic forces.

Re: Leif Svalgaard on August 29, 2013 at 8:55 pm:
Got it. The infinitely thin spherical shells “overhead”, thinking spherically instead of planar, will exert zero net gravitational force on the object within the Sun. Only the remaining sphere underneath will be exerting gravitational force, easily calculable as a point mass at that radius.
So this has mostly been a frame of reference argument?
Well, thanks for the shell theorem info, that explained it.

Leif-
Thank you.
Does this provide any insight into the Livingston and Penn Effect or the possibility of a coming minima, or both?

I love threads like this!

Eric Gisin says:
August 29, 2013 at 9:50 pm
<i.There has to be some inner convection, otherwise He buildup in the core would stop H fusion.
I don’t think so. If fusion is throttled a bit because of less fuel, the core would contract and the temperature would go up. The fusion is extremely temperature dependent so even a tiny increase in temperature is enough to compensate for the slightly lower concentration of H. Convection is only possible if [roughly] the pressure gradient is smaller than the density gradient and in the solar core it is not, so the core is stable.

People have asked about the influence on the dynamo theory of the double cell. Here is a paper that discusses this http://arxiv.org/pdf/1302.0943v2.pdf The main conclusion is “The mean-field dynamo model that includes the subsurface rotational shear layer and the double-cell (in radius) meridional circulation, indicated by the recent helioseismology results, can reproduce the solar magnetic cycles in the form of the time-latitude “butterfly” diagrams. The double-cell circulation affects the distribution of the magnetic field with radius in the convection zone, increasing the field concentration to the convection zone boundaries, and in the middle of the convection zone where the two cells converge. The latter effect can lead to a non-monotonic profile of the amplitude of the large-scale poloidal magnetic field in response to an increase of the circulation speed. The models qualitatively explains the observed synchronization between the polar magnetic field strength and the sunspot number”

From Leif Svalgaard on August 29, 2013 at 9:32 pm:

So this has mostly been a frame of reference argument?
No, a lack of understanding the physics argument…

Now come on, we both know sometimes the physics just doesn’t become clear without the proper frame of reference.
http://xkcd.com/123/

kadaka (KD Knoebel) says:
August 29, 2013 at 10:13 pm
Now come on, we both know sometimes the physics just doesn’t become clear without the proper frame of reference.
Knowing the proper frame is understanding of the physics.
wayne Job says:
August 29, 2013 at 10:14 pm
My questions , could the cyclical behaviour of the sun be it chasing its strange attractors and if so finding them would give a good insight into its antics.
I don’t think so as the sun exhibits both deterministic and random behavior at the same time. Random is not the same as chaotic, and I don’t think the sun is chaotic as a whole.
Secondly as on the planets are there any of the solar activity centered around 19.5 latitude north or south. I understand that these are odd questions but if you have any information it would be received with thanks.
There does not seem to be anything special on the sun about 19.5 latitude.

I noticed in Fig 1 the flows were oriented perfectly north-south. However, angular momentum (i.e. conservation of a.m.) would alter the flow, and produce a lateral component, unless somehow the energy is bled off in another process. Using the Mark I lipid-ion computer, I’m trying to create my own flow model. Wouldn’t the flow likely be somewhat like a screw? Although perhaps there would not be even one complete turn from the equator to near the pole. I imagine then the flow might dive under and follow almost the same track back to the equator, offset to some degree because of the change in depth.
Hey, if it’s a bad idea, don’t complain to me about it, ya get whatcha paid for.

SvP says
I will admit to wrong,if the sun is either much more active then I expect or if the sun is quiet and
the temperatures fail to go down.
Henry says
temps are falling
http://www.woodfortrees.org/plot/hadcrut4gl/from:1987/to:2014/plot/hadcrut4gl/from:2002/to:2014/trend/plot/hadcrut3gl/from:1987/to:2014/plot/hadcrut3gl/from:2002/to:2014/trend/plot/rss/from:1987/to:2014/plot/rss/from:2002/to:2014/trend/plot/hadsst2gl/from:1987/to:2014/plot/hadsst2gl/from:2002/to:2014/trend/plot/hadcrut4gl/from:1987/to:2002/trend/plot/hadcrut3gl/from:1987/to:2002/trend/plot/hadsst2gl/from:1987/to:2002/trend/plot/rss/from:1987/to:2002/trend
I however, I do fear that there is already large scale fiddling going on, trying to hide the decline.
temps are have fallen at least 0.17 since 2002 of my own data set so there is already a discrepancy. Ignoring the exact sequence of sunspots, over time, I find an average of
75 during a warming period (1950-1995)
and an average of
63 during a cooling period (1904-1950)
hence we are now in a cooling period.,….
(1995-2039)
So the theory of the sun causing certain climate patterns/cycles at regular intervals firmly stands.
That there must be an angular momentum cranking the sun up or down a bit seems the most likely explanation of all the data that has so far been collected by me.
http://blogs.24.com/henryp/2013/04/29/the-climate-is-changing/

….But on the Sun, in the example, there would be so much mass overhead, that would also exert gravitational forces, that I cannot see how it would still sum to 29 times Earth weight…
I know this one from A-levels – inside a spherical shell there is no gravity rom the shell, it all balances out. So you only have to consider the bit “below” you.

From Smoking Frog on August 30, 2013 at 2:10 am:

Kadaka: A mischaracterization of a situation is not a “different frame-of-reference,” at least in physics. You mischaracterized the sun as part of a sphere with an earth-size sphere hanging from the flat part.

Strange, I was certain I was thinking of a single sphere with an intersecting plane, and was getting hung up by thinking about the amounts of mass of the sphere above and below the plane. But obviously you know better what I was thinking than I knew what I myself was thinking.

Leif: I think you should have known right away that Kadaka was doing this and that he didn’t know that exterior shells don’t count.

I wasn’t thinking in terms of shells, but of the intersecting plane. And yes, I didn’t know exterior shells didn’t count. If I could do the math, I would have come up with the same answers by my approach, the fundamentals were sound.
But with the simplification of a perfect sphere which can be divided into perfect spherical shells, the shell theorem does make things much nicer.
I was thinking in more general terms, when a specific simpler approach was available. But what if the object studied was not a sphere, but an ovoid? How would you proceed?

Robertv says:
August 30, 2013 at 2:55 am
What do we know of the mass of the coronal layer ? Could it give enough pressure on the surface to heat it up to 5778 K
The corona is extremely tenuous and exerts very little pressure on the surface [about 1/1000 of the pressure on your ear drum during a Rock concert] so does not heat up the surface.
kim says:
August 30, 2013 at 4:34 am
Leif, why would the disappearing sunspots and the hemispheric asymmetry happen together
I think coincidence as the L&P effect may be a surface phenomenon, but don’t really know.

Bill Illis says
It is NOT responsible for the current slight cooling trend on Earth.
Henry says
Sorry Bill, it is fact not the cooling of the sun that causes the cooling on earth.
Indeed, I predicted that the sun could be hotting up a little bit, although that is really not very much, as you seem capable of measuring.
But there is a slight re-distribution of the sun’s output, leading to an increase tin he photons with very short wavelength, leading to an increase in ozone and peroxide/nitric oxides at the TOA,
With those components’s concentration increasing TOA, more normal sunlight, especially, F-UV, is deflected now, which leads to the cooling period.
Try understanding my report on all of this, including the connection with the planetary movements.
It is really very simple.
http://blogs.24.com/henryp/2013/04/29/the-climate-is-changing/

Dr S, a bit OT, but looks like the sun’s convective layer is ~1/3 the total radius. Small M stars have convection all the way to the center. Does that mean larger stars can eventually get so massive that the convective layer goes to zero?

beng says:
August 30, 2013 at 7:18 am
Does that mean larger stars can eventually get so massive that the convective layer goes to zero?
Convection depends on pressure and density, i.e. indirectly on the temperature gradient. If the gradient is large, i.e. the temperature change with radius is steep, you get convection. The outer layers of a star are more opaque than the inner layers which are hotter and therefore more completely ionized [which makes them opaque].
There are basically two different fusion processes in normal stars: the proton-proton [the pp] reaction and the Carbon-Nitrogen-Oxygen [CNO] reaction [which also burns Hydrogen, using Carbon, Nitrogen, and Oxygen as catalysts]. The pp reaction dominates at lower temperature [as in the Sun and lower-mass stars] and gives you a convection zone in the outer layers [stretching all the way to the core for the lowest masses] and a radiation-dominated [no convection] core. In more massive stars, the CNO reaction [which is much more efficient than the pp reaction] dominates resulting in a core temperature far higher than for pp-stars. That favors convection, so high-mass stars have convective cores. As you can see, it can become quite complicated.
kim says:
August 30, 2013 at 7:26 am
I can’t get van de Graff out of mind. He tickles.
A van de Graff machine works because the top dome is supported by an insulator which prevents the charge from running away. In the solar plasma there is no handy insulator around…

Leif Svalgaard says:
u.k.(us) says:
August 29, 2013 at 5:39 pm
The deeper one goes into any gravity well, the more it “weighs” ?
“No, the weight usually goes up in the beginning, to a maximum, then declines to zero at the very center.”
I know that inside the event horrizon of a black hole nothing is or can be known but take a shot anyway. Using general relativity and not Newtonian physics, zero gravity at the theoretical singularity?
And since time slows to a stop there, would it not take infinite time for the supposed sigularity to ever form?

Greg Goodman says:
August 30, 2013 at 8:29 am
Occam’s razor would favour a simple explanation and I think Bart’s analysis was remarkably concise.
Einstein once said “make it as simple as possible, but no simpler”. And Occam’s razor does not favor a simple solution, instead is says “Plurality must never be posited without necessity”, that is: do not invent new explanations when they are not necessary. Bart’s ‘beating’ explanation is one such extra and not necessary ‘explanation’.
The problem with Bart is that his ‘explanation’ is too simplistic and does not apply to the real sun, but with his extremely narrow focus he cannot see that, combined with exaggerated opinion about his ability. It is a common fallacy to favor simplicity when knowledge is lacking and you are a good example of that. There is a word for it: ‘dumbing down’.
Jim G says:
August 30, 2013 at 8:32 am
I know that inside the event horizon of a black hole nothing is or can be known but take a shot anyway
We are getting way off topic here. Perhaps since the concepts of space and time break down, we can bypass the issue by noting that the concept of a ‘center’ also breaks down 🙂

Jim G says:
August 30, 2013 at 8:51 am
Weightless at an infinitely small and infinitely dense point, if such exists?
My view is that the gravity well is infinitely deep and you can never get to the ‘bottom’, but since you are in free fall you are weightless all the way, outside the horizon, crossing the horizon, and for ever after falling towards the infinitely far away singularity.

Jim G says:
August 30, 2013 at 9:01 am
Well then, any time dilation effects within the center of a high mass star …
No, because gravity is zero at the center.

Leif Svalgaard says:
August 30, 2013 at 9:05 am
Jim G says:
August 30, 2013 at 9:01 am
Well then, any time dilation effects within the center of a high mass star …
“No, because gravity is zero at the center.”
Is this per general relativity as well as Newtonian gravity?

Jim G says:
August 30, 2013 at 9:09 am
“No, because gravity is zero at the center.”
Is this per general relativity as well as Newtonian gravity?
General relativity only deviates from Newton when gravity is high and since gravity falls to zero approaching the center, I would say that the shell-theorem also holds in general relativity. There is an ongoing discussion of GR in ‘Extended Bodies’. You can get a feeling for it by visiting http://arxiv.org/abs/1103.0543 but now I think we are way off, off, off topic with little return for the effort expended.

Leif Svalgaard says:
August 30, 2013 at 9:16 am
Jim G says:
August 30, 2013 at 9:09 am
“No, because gravity is zero at the center.”
Is this per general relativity as well as Newtonian gravity?
“I think we are way off, off, off topic with little return for the effort expended.”
Thank you in any event for your responses.

Leif Svalgaard says:
August 29, 2013 at 7:47 pm
“You are a victim of that, but don’t know it [in good D&K style]”
No, you are the victim of it. The methodology I speak of is not mine. It has been used extensively and successfully in uncountable applications where the mathematical framework is <i<precisely the same. It is applicable here, trivially so, to someone who works with the theory almost every day, churning out products which actually work to paying customers.
You are not familiar with it and so, in true D&K style, you dismiss it. That’s your loss, and now you’ve backed yourself into a corner. I expect that kind of chest-thumping bravado from a kid fresh out of school. You have no excuse for your immaturity.
Greg Goodman says:
August 30, 2013 at 8:29 am
Thanks. Good comments. But Leif has backed himself into a corner. It’s no longer about science, and hasn’t been for quite some time. It’s about establishing alpha supremacy. Very sad.

The angular momentum theory makes much more sense then what this latest study is trying to convey.
The angular mometum theory if one uses past history has shown that when the planets exert a certain amount of angular momentum upon the sun due to their orbital relationship about the sun, that the sun has entered either a very active period or inactive period.
Geoff Sharp has used this theory to make his solar forecast which have been quite accurate.
The study that was done really is saying nothing new, it is just an expansion on what they had already thought. The angular momentum theory gives a cause and an effect, this latest theory can not explain why the sun does what it does ,it just says it does what it does.
IT HAS NO CAUSE FOR WHAT THE SUN DOES.

Jim G says:
August 30, 2013 at 9:40 am
Not sure what you guys are discussing, but yes, time dilation occurs on orbiting satellites. The higher your orbit, the faster your clock relative to one on Earth. However, at circular orbit altitude of approximately 1.5 times Earth radius and below, your orbital speed starts to slow down your clock more than the weaker gravity speeds it up, and time runs faster on the Earth.
GPS satellite clocks are corrected by the appropriate factor so that they will measure time as it would be on the surface of the Earth. See chapter 18 “Introduction to Relativistic Effects on the Global Positioning System” here.