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Journal articles on the topic 'Boger'

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Published: 4 June 2021
Last updated: 13 February 2022

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1

James, David F. "Boger Fluids." Annual Review of Fluid Mechanics 41, no. 1 (January 2009): 129–42. http://dx.doi.org/10.1146/annurev.fluid.010908.165125.

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2

Boger, Carl. "Carl Boger replies." Cornell Hotel and Restaurant Administration Quarterly 37, no. 1 (February 1996): 15–16. http://dx.doi.org/10.1177/001088049603700110.

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3

Hallgrímsson, Ólafur. "Torstein Boger 1928–1999." Scandinavian Psychoanalytic Review 23, no. 1 (January 2000): 167–68. http://dx.doi.org/10.1080/01062301.2000.10592596.

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4

Holzapfel, K. "Mittelfindung nach C.M. Boger." Zeitschrift für Klassische Homöopathie 44, no. 03 (March 30, 2007): 91–110. http://dx.doi.org/10.1055/s-2006-938762.

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5

Holzapfel, Klaus. "Cyrus Maxwell Boger, der Generalist." Allgemeine Homöopathische Zeitung 257, no. 01 (January 2012): 30–32. http://dx.doi.org/10.1055/s-0031-1298654.

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6

Mitsoulis, Evan. "Extrudate swell of Boger fluids." Journal of Non-Newtonian Fluid Mechanics 165, no. 13-14 (July 2010): 812–24. http://dx.doi.org/10.1016/j.jnnfm.2010.04.011.

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7

Gypser, K. H. "Repertorisation mit dem "Boger-Boenninghausen"." Zeitschrift für Klassische Homöopathie 31, no. 04 (April 2, 2007): 159–62. http://dx.doi.org/10.1055/s-2006-938231.

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8

Wei, Y., G. K. Seevaratnam, S. Garoff, E. Ramé, and L. M. Walker. "Dynamic wetting of Boger fluids." Journal of Colloid and Interface Science 313, no. 1 (September 2007): 274–80. http://dx.doi.org/10.1016/j.jcis.2007.04.020.

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9

Jenkins, Tracie M., Christina S. Babcock, David M. Geiser, and Wyatt W. Anderson. "Cytoplasmic Incompatibility and Mating Preference in Colombian Drosophila pseudoobscura." Genetics 142, no. 1 (January 1, 1996): 189–94. http://dx.doi.org/10.1093/genetics/142.1.189.

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MacRae and Anderson observed a large frequency change of mitochondrial DNA (mtDNA) haplotypes in a population initiated with two allopatric strains of Drosophila pseudoobscura, BogER from Colombia and AH162 from California. They concluded that mtDNA haplotypes in D. pseudoobscura are not always selectively neutral. Nigro and Prout suggested, however, that a maternally transmitted incompatibility system, similar to the one they observed in two strains of D. simulans from Italy, could account for the observed mtDNA frequency changes. Singh and Hale postulated that a mating preference between the strains BogER and AH162 in MacRae and Anderson’s experiment, in the form of negative assortative mating, could also account for the mtDNA frequency changes. We report two experiments designed to test the hypotheses: that a maternally transmitted cytoplasmic incompatibility system exists between D. pseudoobscura strains BogER and AH162; and, that BogER females mate preferentially with AH162 males. Our results do not support either hypothesis.
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10

STOKES, JASON R., LACHLAN J. W. GRAHAM, NICK J. LAWSON, and DAVID V. BOGER. "Swirling flow of viscoelastic fluids. Part 2. Elastic effects." Journal of Fluid Mechanics 429 (February 25, 2001): 117–53. http://dx.doi.org/10.1017/s0022112000002901.

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A torsionally driven cavity has been used to examine the influence of elasticity on the swirling flow of constant-viscosity elastic liquids (Boger fluids). A wealth of phenomena is observed as the degree of inertia, elasticity and viscous forces are varied by using a range of low- to high-viscosity flexible polyacrylamide Boger fluids and a semi-rigid xanthan gum Boger fluid. As the inertia is decreased and elasticity increased by using polyacrylamide Boger fluids, the circulation rates for a ‘Newtonian-like’ secondary flow decreases until flow reversal occurs owing to the increasing magnitude of the primary normal stress difference. For each polyacrylamide fluid, the flow becomes highly unstable at a critical combination of Reynolds number and Weissenberg number resulting in a new time-dependent elastic instability. Each fluid is characterized by a dimensionless elasticity number and a correlation with Reynolds number is found for the occurrence of the instability. In the elasticity dominated flow of the polyacrylamide Boger fluids, the instability disrupts the flow dramatically and causes an increase in the peak axial velocity along the central axis by as much as 400%. In this case, the core vortex spirals with the primary motion of fluid and is observed in some cases at Reynolds numbers much less than unity. Elastic ‘reverse’ flow is observed for the xanthan gum Boger fluid at high Weissenberg number. As the Weissenberg number decreases, and Reynolds number increases, counter-rotating vortices flowing in the inertial direction form on the rotating lid. The peak axial velocity decreases for the xanthan gum Boger fluid with decreasing Weissenberg number. In addition, several constitutive models are used to describe accurately the rheological properties of the fluids used in this work in shear and extensional flow. This experimental investigation of a complex three-dimensional flow using well-characterized fluids provides the information necessary for the validation of non-Newtonian constitutive models through numerical analysis of the torsionally driven cavity flow.
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11

Scirocco, Rossella, Jan Vermant, and Jan Mewis. "Shear thickening in filled Boger fluids." Journal of Rheology 49, no. 2 (March 2005): 551–67. http://dx.doi.org/10.1122/1.1849185.

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12

Han, Jeongin, and Chongyoup Kim. "Spreading of Boger fluid on horizontal surface." Journal of Non-Newtonian Fluid Mechanics 202 (December 2013): 120–30. http://dx.doi.org/10.1016/j.jnnfm.2013.10.002.

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13

Bunev, A. S., V. E. Statsyuk, G. I. Ostapenko, and P. P. Purygin. "Boger synthesis of 2-azolyl-substituted pyridines." Russian Journal of Organic Chemistry 50, no. 7 (July 2014): 1066–67. http://dx.doi.org/10.1134/s1070428014070264.

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14

Alehashem, Maryam Sadat, Chuan-Gee Lim, and Noel F. Thomas. "The radical cation mediated cleavage of catharanthine leading to the vinblastine type alkaloids: implications for total synthesis and drug design." RSC Advances 6, no. 22 (2016): 18002–25. http://dx.doi.org/10.1039/c5ra23074h.

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15

STOKES, JASON R., LACHLAN J. W. GRAHAM, NICK J. LAWSON, and DAVID V. BOGER. "Swirling flow of viscoelastic fluids. Part 1. Interaction between inertia and elasticity." Journal of Fluid Mechanics 429 (February 25, 2001): 67–115. http://dx.doi.org/10.1017/s0022112000002883.

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A torsionally driven cavity, consisting of a fully enclosed cylinder with rotating bottom lid, is used to examine the confined swirling flow of low-viscosity Boger fluids for situations where inertia dominates the flow field. Flow visualization and the optical technique of particle image velocimetry (PIV) are used to examine the effect of small amounts of fluid elasticity on the phenomenon of vortex breakdown. Low-viscosity Boger fluids are used which consist of dilute concentrations of high molecular weight polyacrylamide or semi-dilute concentrations of xanthan gum in a Newtonian solvent. The introduction of elasticity results in a 20% and 40% increase in the minimum critical aspect ratio required for vortex breakdown to occur using polyacrylamide and xanthan gum, respectively, at concentrations of 45 p.p.m. When the concentrations of either polyacrylamide or xanthan gum are raised to 75 p.p.m., vortex breakdown is entirely suppressed for the cylinder aspect ratios examined. Radial and axial velocity measurements along the axial centreline show that the alteration in existence domain is linked to a decrease in the magnitude of the peak in axial velocity along the central axis. The minimum peak axial velocities along the central axis for the 75 p.p.m. polyacrylamide and 75 p.p.m. xanthan gum Boger fluids are 67% and 86% lower in magnitude, respectively, than for the Newtonian fluid at Reynolds number of Re ≈ 1500–1600. This decrease in axial velocity is associated with the interaction of elasticity in the governing boundary on the rotating base lid and/or the interaction of extensional viscosity in areas with high velocity gradients. The low-viscosity Boger fluids used in this study are rheologically characterized and the steady complex flow field has well-defined boundary conditions. Therefore, the results will allow validation of non-Newtonian constitutive models in a numerical model of a torsionally driven cavity flow.
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16

Machač, I., J. Comiti, P. Brokl, and B. Šiška. "Fluidization of Spherical Particle Beds with Boger Fluids." Chemical Engineering Research and Design 81, no. 9 (October 2003): 1217–21. http://dx.doi.org/10.1205/026387603770866416.

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17

Carroll, Colman P., and Yong Lak Joo. "Electrospinning of viscoelastic Boger fluids: Modeling and experiments." Physics of Fluids 18, no. 5 (May 2006): 053102. http://dx.doi.org/10.1063/1.2200152.

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18

Magda, J. J., J. Lou, S. G. Baek, and K. L. DeVries. "Second normal stress difference of a Boger fluid." Polymer 32, no. 11 (January 1991): 2000–2009. http://dx.doi.org/10.1016/0032-3861(91)90165-f.

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19

Holzapfel, Klaus. "Purpura Schönlein-Henoch – Belladonna." Zeitschrift für Klassische Homöopathie 62, no. 01 (March 2018): 30–33. http://dx.doi.org/10.1055/s-0044-101996.

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ZusammenfassungBehandlung eines Kleinkindes mit Purpura Schönlein-Henoch und Asthma bronchiale mit Belladonna und Rhus toxicodendron unter Benutzung der General Analysis von C. M. Boger und unter Hinzuziehung der Familienanamnese.
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20

Wang, Shu-Wen, Wei-Si Guo, Li-Rong Wen, and Ming Li. "A new approach to pyridines through the reactions of methyl ketones with 1,2,4-triazines." RSC Adv. 4, no. 103 (2014): 59218–20. http://dx.doi.org/10.1039/c4ra11294f.

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A new route to prepare pyridine derivatives based on inverse electron demand Diels–Alder/retro-Diels–Alder reactions of ketones with 1,2,4-triazines is reported, which is complementary to the classical Boger reaction.
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21

Nagalakshmi, P. S. S., and N. Vijaya. "Three Dimensional Boger Nanofluid Flow Explored with Carbon Nanotubes Over a Riga Plate." Journal of Nanofluids 9, no. 2 (June 1, 2020): 114–20. http://dx.doi.org/10.1166/jon.2020.1736.

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An extensive diversity of industrial processes captivate the transfer of heat energy. An extensive task for industrial necessity throughout every industrial efficiency, heat and mass transfer taking place from one process stream to another. These processes provide a source for energy recovery and process fluid heating/cooling. In the present investigation we study the Boger nanofluid flow with carbon nanotubes over a riga plate. Borger nanofluid model is used to characterize the behavior of the fluids having activation energy (E), Solvent fraction parameter (β1), and ratio of relaxation time parameter (λ1) over a riga plate. The modeled boundary layer conservation equations are renovated to non-linear coupled ordinary differential equations by a suitable transformation. Python programming language with bvp solver was adopted to obtain numerical solutions of the resulting equations by using the Runge–Kutta method along with shooting technique. This analysis reveals many significant physical aspects of flow and heat transfer. Estimations are achieved over thermo-physical parameter with single walled carbon nanotubes (SWCNT) and multi walled carbon nanotubes (MWCNT).
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22

Dhundale, Anil. "Cytotoxic Drug Resistance Mechanisms. Robert Brown , Uta Boger-Brown." Quarterly Review of Biology 75, no. 2 (June 2000): 227. http://dx.doi.org/10.1086/393494.

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23

Teut, Michael. "Cyrus Maxwell Boger, der Minimalist. Teil 1: Charakteristische Symptome." Allgemeine Homöopathische Zeitung 256, no. 04 (July 2011): 18–19. http://dx.doi.org/10.1055/s-0030-1257642.

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24

Teut, Michael. "Cyrus Maxwell Boger, der Minimalist. Teil 2: Die Fallanalyse." Allgemeine Homöopathische Zeitung 256, no. 05 (September 2011): 23–24. http://dx.doi.org/10.1055/s-0030-1257664.

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25

James, David F., Terence Shiau, and Peter M. Aldridge. "Flow of a Boger fluid around an isolated cylinder." Journal of Rheology 60, no. 6 (November 2016): 1137–49. http://dx.doi.org/10.1122/1.4961482.

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26

Mackay, Michael E., and David V. Boger. "An explanation of the rheological properties of Boger fluids." Journal of Non-Newtonian Fluid Mechanics 22, no. 2 (January 1987): 235–43. http://dx.doi.org/10.1016/0377-0257(87)80038-1.

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27

Sharma, V. D., and D. P. Rastogi. "Corrections of abbreviations for medicines used in Boger-Boenninghausen's Repertory." British Homeopathic Journal 80, no. 04 (October 1991): 210–27. http://dx.doi.org/10.1016/s0007-0785(05)80747-1.

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SummaryThis paper presents the results of correcting the abbreviations used in the Boger Boenninghausen's Repertory, to bring them in line with the abbreviations which are used in Kent's works. In the process of checking, several (about 100) errors in the name of the drugs were noted. The correct names of drugs were identified after a thorough search in authoritative works.This paper presents the errors and suggested corrections with references. It is hoped that with the incorporation of these corrections the value of this monumental work would be further increased.
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28

Riahi, D. N. "On forcespinning of nonlinear rotating jets of viscoelastic Boger fluids." Journal of Non-Newtonian Fluid Mechanics 287 (January 2021): 104442. http://dx.doi.org/10.1016/j.jnnfm.2020.104442.

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29

Kiesel, Martin. "Anwendung des Synoptic Key von C.M. Boger bei akuten Krankheiten." Allgemeine Homöopathische Zeitung 261, no. 01 (September 26, 2016): 05–09. http://dx.doi.org/10.1055/s-0041-107875.

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30

Zhmayev, Yevgen, Mounica Jyothi Divvela, An-Cheng Ruo, Tao Huang, and Yong Lak Joo. "The jetting behavior of viscoelastic Boger fluids during centrifugal spinning." Physics of Fluids 27, no. 12 (December 2015): 123101. http://dx.doi.org/10.1063/1.4936391.

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31

Mitsoulis, E. "The numerical simulation of boger fluids: A viscometric approximation approach." Polymer Engineering and Science 26, no. 22 (December 1986): 1552–62. http://dx.doi.org/10.1002/pen.760262205.

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32

Holzapfel, Klaus. "C. M. Boger – An Introduction to His Method of Generalizing." Homoeopathic Links 24, no. 04 (December 2011): 222–25. http://dx.doi.org/10.1055/s-0031-1280276.

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33

Teut, Michael. "Cyrus Maxwell Boger, der Minimalist. Teil 3: Synoptic Key Repertorium." Allgemeine Homöopathische Zeitung 256, no. 06 (November 2011): 10–11. http://dx.doi.org/10.1055/s-0030-1257686.

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34

James, David F., Ronnie Yip, and Iain G. Currie. "Slow flow of Boger fluids through model fibrous porous media." Journal of Rheology 56, no. 5 (September 2012): 1249. http://dx.doi.org/10.1122/1.4732533.

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35

Grillet, Anne M., and Eric S. G. Shaqfeh. "Observations of viscoelastic instabilities in recirculation flows of Boger fluids." Journal of Non-Newtonian Fluid Mechanics 64, no. 2-3 (June 1996): 141–55. http://dx.doi.org/10.1016/0377-0257(96)01438-3.

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36

James, David F., and Caitlin A. M. Roos. "Pressure drop of a Boger fluid in a converging channel." Journal of Non-Newtonian Fluid Mechanics 293 (July 2021): 104557. http://dx.doi.org/10.1016/j.jnnfm.2021.104557.

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37

Meile, Jakob K. "Kronik." Magasin fra Det Kongelige Bibliotek 30, no. 2 (July 13, 2017): 38–46. http://dx.doi.org/10.7146/mag.v30i2.96277.

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KRONIKKEN fortæller om det forgangne kvartal på Det Kongelige Bibliotek: Begivenheder, foredrag, udstillinger, koncerter, erhvervelser m.m.: fusionen mellem Statsbiblioteket og Det Kongelige Bibliotek, Bodil Hendriksen, Mette Mejlvang, Daguerreotypier fra Dansk Vestindien, Breve og manuskriptsamlinger. Udstillinger: Abramović Method for Treasures; Blinde vinkler. Billeder af kolonien Dansk Vestindien; Arets Bedste Bogarbejde 2017; Sort pa hvidt – Vi elsker boger!; International Cartoon Award
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38

Campo-Deaño, Laura, Francisco J. Galindo-Rosales, Fernando T. Pinho, Manuel A. Alves, and Mónica S. N. Oliveira. "Flow of low viscosity Boger fluids through a microfluidic hyperbolic contraction." Journal of Non-Newtonian Fluid Mechanics 166, no. 21-22 (November 2011): 1286–96. http://dx.doi.org/10.1016/j.jnnfm.2011.08.006.

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39

Rodrigo Vélez-Cordero, J., Diego Sámano, and Roberto Zenit. "Study of the properties of bubbly flows in Boger-type fluids." Journal of Non-Newtonian Fluid Mechanics 175-176 (May 2012): 1–9. http://dx.doi.org/10.1016/j.jnnfm.2012.03.008.

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40

Garduño, I. E., H. R. Tamaddon-Jahromi, and M. F. Webster. "The falling sphere problem and capturing enhanced drag with Boger fluids." Journal of Non-Newtonian Fluid Mechanics 231 (May 2016): 26–48. http://dx.doi.org/10.1016/j.jnnfm.2016.02.009.

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41

Baumert, Brandon M., and Susan J. Muller. "Flow visualization of the elastic Taylor-Couette instability in Boger fluids." Rheologica Acta 34, no. 2 (1995): 147–59. http://dx.doi.org/10.1007/bf00398434.

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42

Fu, Liangfeng, and Gordon W. Gribble. "Total synthesis of lycogarubin C utilizing the Kornfeld–Boger ring contraction." Tetrahedron Letters 51, no. 3 (January 2010): 537–39. http://dx.doi.org/10.1016/j.tetlet.2009.11.085.

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43

López-Aguilar, J. Esteban, and Hamid R. Tamaddon-Jahromi. "Computational Predictions for Boger Fluids and Circular Contraction Flow under Various Aspect Ratios." Fluids 5, no. 2 (May 31, 2020): 85. http://dx.doi.org/10.3390/fluids5020085.

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This work puts forward a modeling study contrasted against experimental, with focus on abrupt circular contraction flow of two highly-elastic constant shear-viscosity Boger fluids, i.e., a polyacrylamide dissolved in corn-syrup PAA/CS (Fluid-1) and a polyisobutylene dissolved in polybutene PIB/PB (Fluid-2), in various contraction-ratio geometries. Moreover, this work goes hand-in-hand with the counterpart matching of experimental pressure-drops observed in such 4:1 and 8:1 aspect-ratio contraction flows, as described experimentally in the literature. In this study, the experimental findings, for Boger fluids with severe strain-hardening features, reveal significant vortex-evolution characteristics, correlated with enhanced pressure-drop phasing and normal-stress response in the corner region. It is shown how such behavior may be replicated through simulation and the rheological dependencies that are necessary to bring this about. Predictive solutions with an advanced hybrid finite-element/volume (fe/fv) algorithm are able to elucidate the rheological properties (extensional viscosity and normal-stress response) that rule such vortex-enhancement evolution. This is accomplished by employing the novel swanINNFM(q) family of fluids, through the swIM model-variant, with its strong and efficient control on elongational properties.
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44

Zwemke, Hans. "Kurativer Effekt von Bryonia alba bei chronischer Diarrhoe mit Fruktoseintoleranz." Zeitschrift für Klassische Homöopathie 60, no. 04 (December 2016): 193–97. http://dx.doi.org/10.1055/s-0042-119292.

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ZusammenfassungDargestellt wird die erfolgreiche Behandlung einer chronischen, schulmedizinisch und pseudo-diagnostisch als „Fruktoseintoleranz“ klassifizierten Durchfallerkrankung mittels wiederholter Gaben von Bryonia alba. Diskutiert werden verschiedene repertoriale Ansätze wie die Folgerepertorien nach Kent, die General Analysis und der Synoptic Key nach Boger sowie die Polaritätsanalyse nach Bönninghausen. Es erfolgt dann ein Materia-medica-Abgleich mit der Reinen Arzneimittellehre von Hahnemann, die den wichtigen Hinweis enthält, Bryonia wegen seiner Wechselwirkungen innerhalb von 24 Stunden nochmals zu wiederholen.
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45

Verhoef, M. R. J., B. H. A. A. van den Brule, and M. A. Hulsen. "On the modelling of a PIB/PB Boger fluid in extensional flow." Journal of Non-Newtonian Fluid Mechanics 80, no. 2-3 (January 1999): 155–82. http://dx.doi.org/10.1016/s0377-0257(98)00080-9.

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46

Sousa, P. C., P. M. Coelho, M. S. N. Oliveira, and M. A. Alves. "Three-dimensional flow of Newtonian and Boger fluids in square–square contractions." Journal of Non-Newtonian Fluid Mechanics 160, no. 2-3 (August 2009): 122–39. http://dx.doi.org/10.1016/j.jnnfm.2009.03.009.

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47

Satrape, J. V., and M. J. Crochet. "Numerical simulation of the motion of a sphere in a boger fluid." Journal of Non-Newtonian Fluid Mechanics 55, no. 1 (October 1994): 91–111. http://dx.doi.org/10.1016/0377-0257(94)80061-8.

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48

Einax, Jürgen W. "Zeev B. Alfassi, Zvi Boger, Yigal Ronen: Statistical treatment of analytical data." Analytical and Bioanalytical Chemistry 384, no. 3 (December 6, 2005): 555–56. http://dx.doi.org/10.1007/s00216-005-0153-z.

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49

Mandani, Samira, Mahmood Norouzi, and Mohammad Mohsen Shahmardan. "An experimental investigation on impact process of Boger drops onto solid surfaces." Korea-Australia Rheology Journal 30, no. 2 (May 2018): 99–108. http://dx.doi.org/10.1007/s13367-018-0011-0.

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50

Alves, M. A., F. T. Pinho, and P. J. Oliveira. "Visualizations of Boger fluid flows in a 4:1 square-square contraction." AIChE Journal 51, no. 11 (2005): 2908–22. http://dx.doi.org/10.1002/aic.10555.

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