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Everything posted by NTuft
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@swansont, Using Weber's electrodynamics we can substitute masses for charges to get a description of gravitational force. By my read, it wouldn't need monopoles or point charges then -- the masses act like point charges. It does reduce to Newtonian gravity, and with Mach's principle the system is extended as Relational Dynamics by A.K.T. Assis. Any thoughts on that? I'm pro-particle. You want to discuss the science I brought up on that? It was an overture to your particle leanings, I thought you'd like to discuss the cosmology development and why we can't find magnetic monopoles. @studiot, I think you had the technical issue explained to you by someone else, too? You have it figured now? Thanks to you and @joigus for more input here, and keywords.. I'll try to follow up. You guys all sure know a lot.
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There may be something brought to bear on this here, A novel equivalence relation in relativity (+1 @studiot), So the f0 is the 0-th and fk is the conventional. I don't have a handle on co-variant, contra-variant, vector indices or tensors here, I'd barely made a start on what I think is Einstein's vector convention. is the power gain/loss a boost? I ought to go through the sections I pointed at to get the details, but if you could explicate what this is saying I'd appreciate it; I don't even know what questions to ask. Referring to the equivalence relation in relativity cite, does it make sense that the E and B fields are conceptually lightlike objects? I think it's such that they're thought of as the medium in which it propagates. What about the dimensionality? When swansont said that it could be reverted to a v=0 frame and electrostatics could describe it I was thinking that was like going from 3-D to 2-D spacelike dimensions, and then lo-and-behold the next section I read goes into classical electrodynamics... Which is not correct, as electrostatics can be 3-D, but as soon as it is, I think there is the additional degree of freedom for rotation, which again is a relative motion that can induce the B field. And? I think that there was some back-and-forth about whether an interaction hinges on a relative motion, and I think magnetism does. I highly recommend the reading on equivalence relation in relativity, I don't have a good handle on relativity, and several readings of the initial pages are necessary. "...everything in physics is made up to make the math work out. ...in the end, everything we do is to make the math work out."
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They're not entirely unrelated, though. Searching the respective wiki articles for the other's terms, "transformation" or "Lorentz force", has details [Transformation of other quantities; Relativistic form of the Lorentz force]. The E and B fields defined by Lorentz force do not have a timelike quantity so I think you're correct to say they're different from Lorentz transformation including time. Yes, the corrected distribution got in there with the edit. However, also from the wiki's, the Lorentz transformation can illustrate that what appears as a static electric charge and E field in a rest frame appears to be a moving charge with consequent current flow and induced B field from another frame in relative movement--it only becomes an electro-magnetic interaction with some relative velocity, either of the charge or the observer thereof.
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I can see the utilitarian argument, but if there were some non-contingent, non-interacting "field" isn't it possible that our observations or reality is contingent in a way that couldn't necessarily be measured? I know that's a mushy, philosophical-religio-mystical question, but I don't see physics as "made up", rather that it's trying to develop a description.. To me, the explanatory power for theory is deficient if it's not encompassing reality, even if utility wouldn't require a complete understanding. Lorentz force,
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Injuries to diplomats is a limited hangout, a cover for two-way signals surveillance or injection technology.
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Yes, thank you. Yes, should say increases expression. Certainly yes there is the assumption that LDL receptors are involved in LDL-C clearance. The interpretation to end the abstract from the authors is like what you suggest. It could be decreased production VLDL->IDL->LDL is sensed and signals upregulation of expression of receptors, seeing that the diets step down both fat% and SFA%: 34%(15%)[0,0], 29%(9%)[-5%,-6%], 25%(6%)[-9%,-9%]. I presume both numbers are % of total energy, and the latter not a %SFA of total fat, as that seems implausible.
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Indeed this is a complicated topic. I did not read the paper either, and should have and parsed it, instead of posting the "rah-rah" blog write-up. This was a feeding study on humans, which is important as I think the usual rodent studies want to draw a parallel between a small-bodied herbivore and a large-bodied omnivore with a large gallbladder and a large brain-body ratio which brain is a cholesterol dependent construction. I don't think most any conlcusions on mechanisms of metabolism can be extended to humans, but the basic results may point toward what are conserved mechanisms. It looks to me that the Lipoproteins work alongside chylomicrons in the distribution and metabolism of fats. This is complicated by fats being both structural components and energetic substrates. Lipoproteins go from Very-Low Density packages distributed by the liver to Intermediate-Density, to Low-Density as they unload fatty acid cargo at peripheral tissue, dependent on binding of the Lipoprotein receptors. There is data that reducing SFA content in the diet reduces expression of LDL receptors (Reducing saturated fat intake is associated with increased levels of LDL receptors on mononuclear cells in healthy men and women). Some knowledgeable people have taken evidence that the LDL receptor is saturated at very low levels as license to start statins without real indications. Again, there ought to be due diligence and it's lacking on my part here as well, but for one the materials and methods would need an investigation as to whether this saturation level is an in vitro type of tissue study or in the context of connected running metabolism. It's noteworthy that the study linked above looked at mononuclear cells, since I'm rather certain there are human population studies that show a decrease in all cause mortality and in particular suicides and infectious disease death correlating with higher levels of LDL. I suppose what I find most interesting about the 3 egg/day result is that estimates are that cholesterol is metabolized on the order of 1g generated by the liver per day(Ed.: with losses, I'd bet, as bile salts of cholesterol+taurine/glycine excreted]. Usual estimates are that 20% of that may come from diet, but I would speculate that that may largely be tied to average egg intake. Going from 0 eggs/d to 3/day, with a conservative estimate of 200mg cholesterol per egg, shifts the burden on the liver from ~1g/day production to .4g/day, yet there is what looks like a non-significant increase in total cholesterol; it looks like the metabolism simply shifted to acommodate the increased ingestion (assuming 100% assimilation and utilization). There is increasing evidence (especially if you buy into the write-ups, hook-line-and-sinker) that would exonerate SFA intake from causative in CVD. It seems to have been scapegoated in the context of metabolic syndrome or metabolic disease. I would just point out the French paradox as an entry into the topic. Energy balance, the interplay between intake and expenditure, is probably more important than trying to leverage metabolic mechanisms, which are complex and seemingly geared to account for and accomodate just about any diet. You seem to point at Calorie-Restricted-Optimal-Nutrition, which I second has merit; studies on monkeys are even by visible appearance alarming in comparing overfeeding to CR. That said, the Optimal-Nutrition end requires some knowledge and application: being wary of anti-nutrients (say trans-fats, and likely some lectins or phytochemicals) and saturating would be bottlenecks(chokepoints) on metabolism by finding adequate mineral, vitamin, and vitamin-like substance sources. Ok now you're "trolling" for a free online physical! J/k I'm skeptical of the "Lipid hypothesis", but I know it still holds by and large in the mainstream. Which is preferred out on the science boards here at SF.net. Going into these details does seem somewhat natural from the context of the OP, but it's also a generalization of a specific question... Anyway perhaps welcome to SF, OP; not much context on what you want assessed and expecting readers to watch a video is a forlorn hope, and diverging into related topics is almost a given if you cease any follow-up or specifications on the topic at hand.
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I wonder if it matters if it's intentional or malicious. A stoic line would be that one can only control their responses, or that one can stifle any unreasonable emotional reaction, if there is self-mastery. Nonetheless, if something "gets your goat" I think it helps you see yourself--why or how am I identified with this point of contention that leads to negative emotion or reaction? I agree with a line of argument that says the truth hurts. That dis-confirming information is interpreted by the brain as physical injury. I don't know how scientifically founded that is, but I do think there are studies on cognitive biases in political opinion where people presented with information dis-confirmatory to their belief have pain centers light up. I also think the issue of whether you're thinking with your adipose or your blood is at play. I'm not so sure we can really control what impressions we make on others. Being able to be externally considerate always and internally considerate never is an equation for happiness. Being able to control the impressions we make on others would be quite a skill... But is there a need for it? Perhaps stepping on people's corns can create a friction, create some difficulty to make a change that wouldn't be possible another way. It only make sense and is reasonable I think to be respectful here, I think we'd hope we understand each other and are working on things together. Yet if you think it's necessary to correct with dis-confirming information, it's going to bring the pain, and oftentimes I think it's done with a flair or presentation that might be taken personally, or as an insult, when in reality it's done in good humor (at least for the rest of the readers).
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Can you explain more about the extra dimensions? It seems as though some results did not fit, so you postulate these ED orbitals. Does your geometric model remain planar? You mention that P level is stacked on the z-axis(coming out of the page), PL over PR, one over another -- so is it more like PL - QL PL \ QL \ \ PR \ QR PR QL once you get to P+Q level? Not sure I understand your diagrams... Then you on to hexagrams and decagons (plus two orbitals in the center). Is the geometry planar?? I think this is interesting. I think the shell model can accomodate geometric nucleus structure. You start with a 4 (2 proton-2 neutron), add 6s or 8s, then 10s or 12s.. I think you could really gain something (and maybe lose the extra dimensions) from reading this write-up on another geometrical model for nuclear structure: I'll try to get through the rest. MOON-HECT-Keplerian-ATOM-Periodicity.pdf
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Here's a link to a blog post discussing a controlled feeding study (2017) looking at effects of egg consumption on blood cholesterol: Three Eggs a Day = Doping for Your Heart Health: Larger LDL & HDL, Increased Efflux and Transport + More Benefits @Nutrition4Health, I did not watch the video; would you clarify about what the claims are that are being made? Is he claiming that eating eggs leads to cholesterol absorption and then sustained, circulating high cholesterol levels? Because I think that is bogus. From what I understand, the number of particles, which relates to whether LDL and HDL are small and dense vs. large and fluffy, is an issue--it can be differentiated by an NMR lipid profile. Per Cleveland (U.S.) Clinic recommendations I believe an [Ed.: NMR profile for particle quantifying/sizing should be added], an ApoB level [and also see cited study re:ApoAII], and of course circulating triglycerides are recommended to get a good picture (check recommendations, this is not advice). The cholesterol intake from egg consumption is in my opinion offset by the choline (or lecithin) content of eggs facilitating healthy fat metabolism. What seems to be more well established is that dietary saturated fat intake leads to increased LDL levels, which for some people may be problematic. The cholesterol hypothesis, roughly speaking, is that (LDL) cholesterol becoming oxidized and deposited in the endothelium is the mechanism of development for atherosclerosis. I do not think it is still held that dietary cholesterol is the main part of the mechanism, rather that the interplay between dietary fat and endogenous cholesterol metabolism can lead to oxidation and deposition of cholesterol plaques. The susceptibility to oxidation/inappropriate deposition I think is tied to the particle size... As an aside, @exchemist, I do not think olive oil should be eschewed, as I think MUFA and PUFA are not shown to increase LDL "cholesterol". But yes perhaps control total fat intake--although Mediterranean ratio of <=30-40% total kCal I think is good... Again, IMO, traditional statins are very problematic in interrupting mevalonate->cholesterol, because it's then interferring with everything downstream in the steroid pathways (and muscle pain, weakness, and atrophy are underreported), let alone that cholesterol is a structural component in animal cell membranes. Perhaps look into psyllium husk, berberine, niacin (nicotinic acid) for cholesterol lowering? And do address choline/lecithin via eggs, liver, or perhaps a lecithin supplement for various things; or if you want to take statins for their anti-inflammatory and CVD protective effects it may be worthwhile investigating increasing dietary cholesterol. You may want an NMR lipid profile before even concluding that your levels are telling the tale, because the particle size/density may be more important. Friendly advice, not medical, and I should re-acquaint myself with the current literature, or any new evidence on the matter.
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I suppose I quibbled, "Accept this definition from wikipedia." And your stance is, "That is unacceptable." It was on the issue that I'd missed a point you were emphasizing about Fields, but I didn't see the point, and wanted to wave it away and make do with a "group", though I didn't define the group operation well, either. I grant your recent echoed point. I am out walking the dog in the... p-1ark!... and uncertain on which end is the wiener, in natural casing, and which end is gauging the walking. So I think it is a confusion of the mathematical theory and matematical modeling, which is nuanced, but I think it is good. I had premised that I wanted to take as granted the sets and their field axioms. In going in to describe the problem in situ, I think there needs to be a failure of the commutator. My work-up is not formally acceptable or explicit. I think that commutative multiplication can describe energy being added to a particle. I think the failure of the commutator to allow addition can describe the phenomena discussed. I do not think it is too far afield to have your wiener and walk it, too, if on a lattice gauge the spacing in the physics field is bringing together the interactions that are described by the operations that characterize the mathematical field. The book recommended Thursday is in the mail. +1 over there. Ought to walk before you run, and a group is more basic than a field, so maybe start there? Perhaps you have some thoughts on the set to generate a group? I need to study the Lagrangian formalism, among other things. And be more precise in my terms and work-up to be taken seriously... Tread carefully.
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In TQFT, for Wilson loops the expectation value does not change under smooth deformations..They are gauge invariant. By Wick rotations obects from thermal physics, exp(βH), are related to quantum physics, exp(−iH T).. Polyakov loop is "thermal analogue" to Wilson loop.. An imaginary temporal compactification, length of β=1/T(emp.), leads to topologically nontrivial loops around the compact direction known as Polyakov loops. Those loops (assuming the group center change of basis is not trivial) are gauge dependent, Ok. I read your questions on TQFT, and those and the leads to "functorials", etc., look interesting. Interesting formulation. Thanks for this, article, too, but they make statements with caveats, so I wouldn't conclude it's unsolvable.
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I'll repeat the distinction between the two. So addition and multiplication, multiplicative inverse, and effectively two nullary operations would be an equivalent way to define the field. I think I posited those, though I called addition non-commutative for the reasons I explained. You seemed to argue earlier that wasn't a field--was it a problem with the operations I was proposing? Feel free to give up. -1
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What I had in mind was a discrepancy in the trace -- a Wilson loop is functional if the perimeter measure is correct, whereas a Polyakov loop implies the area between confined states is what's needed (fuzzy re-hash). I think it's related to confinement and chiral symmetry breaking. I'll follow up on what you've mentioned. I shouldn't have asked the last leading question, Glueballs. Would you explain what about it makes you think it "is considered to be the toughest problem around concerning physics?" I thought it was the conceptual or theoretical mathematical description of what has been pretty well established physically. So the back and forth between Physico-Mathematics, Mathematical-Physics; it does exist!
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-1 to 1st Lt post. +1 @TheVat's response. Antenna/transceiver in the near-field vs. far-field for a satellite? Two-way street--this is a function of supercomputing power, and the U.S. and PRC lead the world, and are close competitors as far as I know. At least the mass of data is analyzed and distilled before intel assessment I reckon. FBI can hack back TOR layers and are dismissing cases without prejudice to not disclose the method. @Alex_Krycek, "I want to believe." Tic-tac shape noted. Cf. orb over Mosul.
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To clarify, I'll say that the square root operation is a non-linear operation and cannot be performed at what I want to be the linear level so it functions as a place-holder, for the quark-antiquark here. I do not mean that -M is an anti-meson, but rather as though it's been rotated 180degrees. Proton and anti-proton. Analagous to neutron, but the electron needs a work-up. So massive particles here, and there needs to be accounting for mass-energy equivalence. I think particle-antiparticle meeting can bring the annihilation, crossing the zero limit to produce massless emissions. The mathematical field gives scalars for a vector space. I think the physics field is quantifying x at points in space. We then can build up these vector spaces to the description of physical fields. This is out of order, but you know more about it than I do, Chief; there's a need to get to , and I believe you know about projective spaces to get to more complexity. I'm looking at how an algebraic number field could build up a description. I think it can be extended to a quadratic form if we take it that the is the variables of energy-momentum or mass. I don't know about the co-efficients yet or where it goes from linear to non-linear though I think that could help, but I'm not hot-dogging it anymore, I know I don't know enough. I still hold that this quadratic field may be the real basis for the complex field...
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Yes, and thank you. I need to catch up on the thread -- but of course I was joking, a little... hypothetically, Frank Luke continues flying the plane, AEGIS could guide the hook shot: ?
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@studiot, @joigus, @swansont, @uncool, @Genady, @dimreepr, @StringJunky, @Markus Hanke, @Mordred, et al., https://www.claymath.org/sites/default/files/yangmills.pdf I take for granted the standard construction of sets and operations to generate their number fields. There exists the set p of prime numbers from the set of integers. Given the square root operation, generate the set of all for a set called p'. With elements of p'={a,b,c...} restriction conditions: : the confinement conditions. The idea here is to create a mathematical description of the physical situation. The math logic is that the square root operation cannot be performed on the set element, imposing non-commutativity on addition here when not considering annihilation--so what would be mathematical additive inverses do not cancel to zero. The description of a hadron (characterized above by capital letters M,P,N) jet (M) or gluon cloud (P,N), with different values for different energy levels (and other n-tuples for exotic forms). I don't know how to treat multiplicative associativity/commutativity here. A second condition: : the gap condition. This creates an identity element, and multiplicative inverses define 0. Additive inverses (or symmetric counter magnitudes) exist, but the operation is barred for the unaltered elements in the interests of creating certain 2-tuples and 3-tuples corresponding to confined hadrons. These confined n-tuples are then incorporated into an extended set. The set then extends to a group. The group operation consists in generating these groups, though this seems redundant; now +q-q pairs or +u+u+d, +d+d+u can be equated as symmetries under rotation. Normal multiplicative associative rule and left- and right-distributive rules are posited (d/t need for non-commutative multiplication now in force as), applying any p'p'=p un-bars the radicand allowing commutative addition and subtraction (e.g. p2=1, p2+p2=n (n=2,3,...) which can be used to reconstruct the number sets Let be the quadratic fields available, complex and real. Using constructions analogous to references below I would like to construct a vector space with p' elements. In basic terms the elements are analogous to the real vector space, being that p' is intuitively mappable over the real line with magnitude and direction. It may be possible to extend these constructions to a Hilbert space. I do not know how to conceive this as a quadratic form, which may be necessary. Noting the constructions and developments in references, the construction may be able to move from to G3 to what should exist (within a subset of) 4, and then a formulated Hilbert vector space with needed conditions. The aim is what can function as a compact gauge group that encodes the physical situation and can work to generate the gauge symmetry groups of the Standard model, provide for logical gauge transformations and account for renormalization (e.g. see exponentiations as equating to divergences in loop diagrams) or gauge fixing, and account for the mass gap. I do not know enough, I ask for your help, inputs, critique; I have gotten through 2 papers referenced and limited on 2 others. Ref. 1: A. Jadczyk; On the bundle of Clifford algebras over the space of quadratic forms; Paper presented at the 12th International Conference on Clifford Algebras and their Applications in Mathematical Physics.; incomplete. For each quadratic form Q∈Quad(V) over a given vector space over a field K we have the Clifford algebra Cl(V,Q) defined as the quotient T(V)/I(Q) of the tensor algebra T(V) over the two-sided ideal generated by expressions of the form Ref. 2: D. Hestenes; Oersted Medal Lecture 2002: Reforming the mathematical language of physics, Am. J. Phys. 71 (2), February 2003, pp. 104--121. ; complete. Geometric Algebra vector space construction, G3, "The rules for multiplying vectors are the basic grammar rules for GA, and they can be applied to vector spaces of any dimension." Ref. 3: Ibid.; Spacetime Physics with Geometric Algebra, Am. J. Phys. 71 (6), June 2003, pp. 1--24) ; incomplete. extends GA to GR 4-D spacetime; clarifications of Dirac's theory/equation, QM implications. Ref. 4: Kumar, K.N.P.; Yang–Mills Existence and Mass Gap(Unsolved Problem): Aufklärung La Altagsgeschichte: Enlightenment of a Micro History; International Journal of Scientific and Research Publications, Volume 3, Issue 10, October 2013.; 231pgs.; complete. Dense with formalism and repetitions--apparently Category Theory construction of Yang-Mills problem propositions from CMI or slightly less official source. Again, very repetitive--and I'm not sure this actually is anything-- but it is a categorizing of propositions, each one split three ways (G1,2,3, T1,2,3) the author then looks to transform by logic to lambda (calculus?) addition, reaching the conclusion, "And as one sees, all the coefficients are positive. It follows that all the roots have negative real part, and this proves the theorem." I do not believe the conclusion: this could just be an even worse attempt at proving Y-M existence & than what I put above. Possibly most value found at Ref. 3: Reifler, F.; Morris, R."Conditions for exact equivalence of Kaluza-Klein and Yang-Mills theories", Lockheed Martin Corporation MS2 137−205. Cited file (Kumar,231pgs.) too large: see https://www.ijsrp.org/research-paper-1013/ijsrp-p2248.pdf For further research: Yukalov, Yukalova; self-similar approximation theory e.g. From asymptotic series to self-similar approximants. P.s. I still need the Foundations of Mathematics by Stewart and Tall.
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Cool beans. I wonder if all the pooh-poohing about the shit can the F-35 is is an Art of War tactic. "Oh, this thing can't fly. Oh, we can't figure out it's HUD or radar." You tellin' me I can't fly right below that there baloon and fire off me sidewinder, set my jet on autopilot, and fly that missile by wire straight up into that balloon? What, I need some extra propellant? ..It's got to be Pooh.. that last part is a Pooh reference! Peter Pan is probably most offensive, especially if we use the Wuhite verion.
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Well... "interpretations of QM", or, what sort of "spin" are they putting on it? My own bête noire in physics, I'd thought it a mere phantasm, I've found still lurks in the math. I recommend this introductory paper on Geometric Algebra(GA): Oersted Medal Lecture 2002: Reforming the Mathematical Language of Physics, by David Hestenes, Department of Physics and Astronomy Arizona State University (.pdf, attached) In the Schrödinger wave equation, in developing the operator formalism I couldn't understand the treatment of the -iħ term; I still don't. I'd seen i was treated differently in matrix mechanics, and read it was regarded as the phase angle of the wave. After Hestenes's initial math work-up, he goes on to demonstrate that -iħ is actually encoding spin. The GA formalism builds up vector multiplication differently as the geometric product: a sum of a symmetric inner product and an antisymmetric outer product. There is an absence of commutative rule, but left and right distributivity are given seperately, and there is a contraction rule peculiar to GA. The outer, "wedge", product is related to the traditional cross product by a ∧ b = i a × b, and so the geometric product of vectors a and b can be stated as ab = a ·b + i a × b . The multivector form, M = α + a + ib + iβ (30), is comprised of a scalar, vector, bivector, and pseudoscalar, so "the Geometric Algebra G3 is a linear space of dimension 1 + 3 + 3 + 1 = 23 = 8. The expansion (30) has the formal algebraic structure of a “complex scalar” α + iβ added to a “complex vector” a + ib, but any physical interpretation attributed to this structure hinges on the geometric meaning of i...". He develops some natural facility for reflections and rotations, which given a normal basis are co-ordinate free, and develops "rotors", which are equatable to quaternions. From my basic understand, a Clifford algebra is a combination of the Grassman algebra and Hamilton's quaternion algebra; Clifford had called it geometric algebra and Hestenes seems to have been devoted to developing this math formalism that Grassman had started. There is also the paper Spacetime Physics with Geometric Algebra (.pdf attached), the sequel to the Ørsted medal lecture paper, with Section VIII: Interpretations of Quantum Mechanics. OerstedMedalLecture.pdf SpacetimePhysics.pdf
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Sika Technology AG Comprehensive understanding of grinding aids It doesn't sound like you're sintering to clinker, which is the focus of the above paper. From there, Reference [16] Sohoni, S., Sridhar, R., Mandal, G.: The effect of grinding aids on the fine grinding of limestone, quartz and Portland cement clinker, Powder Technology 67 (1991), pp. 277–286 Science Direct.com Pubchem Triethanolamine BP 335-350°C