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Fisher

Ali H, Fisher 1, Haribabu B, Richardson RM and Snyderman R (1997) Role of phosphohpase Cbeta3 phosphorylation in the desensitization of cellular responses to platelet-activating factor. 1 Biol Chem 272(18) 11706-11709... [Pg.391]

Visoly-Fisher 1, Dale K, Terazono Y, Herrero C, Fungo F, Otero L, Durantini E, Sil-ber JJ, Sereno L, Gust D, Moore TA, Moore AL, Lindsay SM (2006) Proc Natl Acad Sci USA 103 8686-8690... [Pg.254]

Westlake KP and Patten C, Pilot study of Lokomat versus manual-assisted treadmill training for locomotor recovery post-stroke. Journal ofNeuroEngineering Rehabilitation, vol. 6 18,2009. Schwartz I, Sajin A, Fisher 1, Neeb M, Shochina M, Katz-Leurer M, and Meiner Z, The effectiveness of locomotor therapy using robotic-assisted gait training in subacute stroke patients A randomized controlled trial, PM R, vol. 1, p>p. 516-523,2009. [Pg.32]

Appearance white flowable powder Melting Point 185-190C Moisture Karl Fisher 1%, max. [Pg.88]

Bitsakos C, Kemer J, Fisher 1, Amis A (2005) The effect of muscle loading on the simulation of bone remodelling in the proximal femur. Journal of Biomechanics 38 133-139. [Pg.178]

Derbyshire B, Fisher 1, Dowson D, Hardaker C, Brummitt K. Comparative study of the wear of UHMWPE with zirconia ceramic and stainless steel femoral heads in artificial hip joints. Med Eng Phys 1994 16 229-302. [Pg.377]

Nevelos IE, Ingham E, Doyle C, Fisher 1, Nevelos AB. Analysis of retrieved alumina ceramic components from Mittelmeier total hip prostheses. Biomaterials 1999 20(19) 1833-40. [Pg.377]

Fisher 1 (1997) What is the right supply chain for your product . Harvard Business Review 75(2) 105-116. [Pg.287]

The Information Theory (IT) [1-8] is one of the youngest branches of the applied probability theory, in which the probability ideas have been introduced into the field of communication, control, and data processing. Its foundations have been laid in 1920s by Sir R. A. Fisher [1] in his classical measurement theory and in 1940s by C.E. Shannon [3] in his mathematical theory of communication. The quantum state of electrons in a molecule is determined by the system wave function, the amplitude... [Pg.52]

Water content Karl Fisher (NF T 60-154) or Azeotropic distiilation (NFT 60113)... [Pg.310]

Fisher, I.P. and P. Fisher (1974), Analysis of high boiling petroleum streams by high resolution mass spectrometry . Talanta, Vol. 21, p. 867. [Pg.455]

While Eq. III-18 has been verified for small droplets, attempts to do so for liquids in capillaries (where Rm is negative and there should be a pressure reduction) have led to startling discrepancies. Potential problems include the presence of impurities leached from the capillary walls and allowance for the film of adsorbed vapor that should be present (see Chapter X). There is room for another real effect arising from structural peiturbations in the liquid induced by the vicinity of the solid capillary wall (see Chapter VI). Fisher and Israelachvili [19] review much of the literature on the verification of the Kelvin equation and report confirmatory measurements for liquid bridges between crossed mica cylinders. The situation is similar to that of the meniscus in a capillary since Rm is negative some of their results are shown in Fig. III-3. Studies in capillaries have been reviewed by Melrose [20] who concludes that the Kelvin equation is obeyed for radii at least down to 1 fim. [Pg.54]

This effect assumes importance only at very small radii, but it has some applications in the treatment of nucleation theory where the excess surface energy of small clusters is involved (see Section IX-2). An intrinsic difficulty with equations such as 111-20 is that the treatment, if not modelistic and hence partly empirical, assumes a continuous medium, yet the effect does not become important until curvature comparable to molecular dimensions is reached. Fisher and Israelachvili [24] measured the force due to the Laplace pressure for a pendular ring of liquid between crossed mica cylinders and concluded that for several organic liquids the effective surface tension remained unchanged... [Pg.54]

Fisher M 1964 Correlation functions and the critical region of simple fluids J. Math. Phys. 5 944... [Pg.552]

Fisher M and Levin Y 1993 Criticality in ionic fluids Debye Huckel Theory, Bjerrum and beyond Phys. Rev. Lett. 71 3826... [Pg.553]

Fisher M 1996 The nature of criticality in ionic fluids J. Phys. Condens. Matter. 8 9103... [Pg.553]

Fisher M 1983 Scaling, universality and renormalization group theory Critical Phenomena (Lecture Notes in Physics vol 186) (Berlin Springer)... [Pg.557]

Oh S H, Fisher G B, Carpenter J E and Goodman D W 1986 Comparative kinetic studies of CO-O2 and CO-NO reactions over singie crystai and supported rhodium cataiysts J. Catal. 100 360... [Pg.956]

Fisher J J and McMahon T B 1990 Determination of rate constants for low pressure association reactions by Fourier transform-ion cyclotron resonance Int. J. Mass Spectrom. Ion. Proc 100 707-17... [Pg.1360]

Abraham R J, Fisher J and Loftus P 1988 Introduction to NMR Spectroscopy (Chichester Wiley)... [Pg.1464]

Fisher A C 1996 Electrode Dynamics (Oxford Chemistry Primers) (New York Oxford University Press)... [Pg.1949]

Fulian Q, Fisher A C and Denuault G 1999 Applioations of the boundary element method in eleotroohemistry soanning eleotroohemioal miorosoopy J. Phys. Chem. B 103 4387... [Pg.1951]

Fisher A J and Bldchl P E 1993 Adsorption and scanning-tunneling-microscope Imaging of benzene on graphite and M0S2 Phys. Rev. Lett. 70 3263-6... [Pg.2232]

Jin A J and Fisher M E 1993 Effeotive interfaoe Hamiltonians for short-range oritioal wetting Phys. Rev. 47 7365... [Pg.2385]

Fisher T E, Oberhauser A F, Carrion-Vazquez M, Marszalek P E and Fernandez J M 1999 The study of protein mechanics with the atomic force microscope Trends Biochem. Sci. 24 379-84... [Pg.2665]

Comparison of the Lennard-]ones potential for argon with the Barker-Fisher-Watts pair potential kg is .mann s constant. [Pg.232]

A comparison of the pairwise contribution to the Barker-Fisher-Watts potential with the Lennard-Jones potential for argon is shown in Figure 4.38. [Pg.233]

J A, R A Fisher and R O Watts 1971. Liquid Argon Monte Carlo and Molecular Dynamics Iculations. Molecular Physics 21 657-673. [Pg.266]

Manufactured by A.G. fiir Clioinie-Apparatebau, Zurich G, Ottikerair. 24 also supplied by the Fisher Scientific Company. Model E 1 is recommended for general laboratory purposes. [Pg.65]

Made by Hathemware Ltd. for filter papers of 185 and 270 mm. diameter, t Supplied by the Fisher Scientific Company a product of the Coors Porcelain Company. [Pg.134]

A Laboratory Emergency Chart, which should be hung in a prominent position near the First Aid Box, is obtainable from the Fisher Scientific Company. [Pg.1131]

Big name science houses and chemical manufacturers These include such names as Fisher, Baxter, VWR, Cole-Parmer, Alltech, Aldrich and Sigma. It is very hard to get a fledgling account with these giants, but if one can then the sky s the limit. Most chemists should be happy getting these companies products through the distributors. [Pg.11]

For the past year Strike had been in consultation with contract labs over the making of phenylisopropyl alcohols using sulfuric acid and allylbenzenes (don t ask). The lab owners would listen patiently as Strike primitively described how and why an OH should go on the beta carbon. And without exception, the lab owners would point out to Strike that the best way to get an OH on the beta carbon would be to put a Br there first. But Strike don t wanna put a Br there first Strike would say, Strike wants the OH put on directly using sulfuric acid " The lab guys had to do what Strike said because Strike was holding all the money (...a fool and her money etc.). But out of curiosity Strike asked how they would get that Br on the beta carbon. Every one of them said it was simply a matter of using the 48% HBr in acetic acid. They even showed Strike their stock solutions (usually from Aldrich or Fisher). [Pg.144]


See other pages where Fisher is mentioned: [Pg.100]    [Pg.352]    [Pg.1536]    [Pg.451]    [Pg.778]    [Pg.2339]    [Pg.143]    [Pg.109]    [Pg.50]    [Pg.96]    [Pg.97]    [Pg.333]    [Pg.343]    [Pg.650]    [Pg.650]    [Pg.207]    [Pg.232]    [Pg.296]    [Pg.16]    [Pg.52]    [Pg.112]    [Pg.138]    [Pg.138]    [Pg.195]    [Pg.351]    [Pg.67]    [Pg.379]    [Pg.51]    [Pg.335]    [Pg.346]   
See also in sourсe #XX -- [ Pg.4 , Pg.6 , Pg.33 , Pg.336 , Pg.349 ]




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Asymptotic properties of correlations between chain ends Fishers result

Barker-Fisher-Watts potential

Black, Fisher

Bonner Fisher model

Bonner-Fisher law

Bonner—Fisher method

Carbene complexes Fisher

Conformations of molecules Fisher projection

Converting the Fisher Universal Gas Sizing Equation to SI units

Discriminant Fisher

Distribution Fishers

Draper Fisher Jurvetson

Fisher Controls

Fisher Controls Company

Fisher Exact test

Fisher F-distribution

Fisher F-ratio

Fisher Filtrator

Fisher Indolization Reaction

Fisher International

Fisher Scientific

Fisher Sub-Sieve Sizer

Fisher Tropsch Polymerization

Fisher Tropsch synthesis

Fisher burner

Fisher carbenes

Fisher chromium carbene complex

Fisher contact dermatitis

Fisher criterion

Fisher cyclization

Fisher discriminant analysis

Fisher effect

Fisher effect interaction

Fisher equation

Fisher esterification

Fisher exponent

Fisher formula

Fisher identity

Fisher index

Fisher indolization

Fisher information

Fisher information matrix

Fisher information measure

Fisher linear discriminant analysis

Fisher model

Fisher oxazole synthesis

Fisher projection formula

Fisher projections

Fisher randomization test

Fisher ratio

Fisher reaction

Fisher refractometer

Fisher relation

Fisher relationship

Fisher renormalization

Fisher s model

Fisher significance ratio

Fisher subsieve sizer

Fisher syndrome

Fisher system

Fisher variance ratio

Fisher velocity

Fisher waves

Fisher weighting

Fisher, Benjamin Franklin

Fisher, Charles

Fisher, Chester

Fisher, Emil

Fisher, Emile

Fisher, Eugene

Fisher, Frederick

Fisher, John

Fisher, Lord

Fisher, Martin

Fisher, Mel

Fisher, Ronald

Fisher, Scott

Fisher, Walter

Fisher, living

Fisher-Irwin test

Fisher-Johns apparatus

Fisher-King

Fisher-Kolmogorov equation

Fisher-Lee relation

Fisher-Tropsch

Fisher-Tropsch method

Fisher-Tropsch processes

Fisher-Tropsch processes methanation

Fisher-Tropsch reactor

Fisher-Trosch

Fisher-Turnbull equation

Fisher-Watts potential

Fisher’s F-distribution

Fisher’s F-test

Fisher’s Z transformation

Fisher’s base

Fisher’s discriminant analysis

Fisher’s exact test

Fisher’s fundamental theorem

Fisher’s least significant difference

Fisher’s least significant difference (LSD

Fisher’s likelihood function

Hidden Variables - Fisher Renormalization

Indole synthesis, Fisher

Indoles Fisher indole synthesis

Inflation-indexed bonds Fisher identity

Karl Fisher

Karl Fisher analysis

Karl Fisher measurements

Karl Fisher method

Karl Fisher moisture titration

Karl-Fisher titration

Melting point Fisher-Johns apparatus

Miller Fisher syndrome

Moisture analysis Karl Fisher method

Nellie Fisher

Operation of the Fisher-Johns Apparatus

Performance verification Karl Fisher

Photocatalyst Fisher

Rearrangements Fisher indole synthesis

Statistical test Fisher

The Fisher Universal Gas Sizing Equation (FUGSE)

The Fisher sub-sieve sizer

The Fisher-Johns Apparatus

The Fisher-Kolmogorov model of reactions with diffusion

Thermo Fisher Scientific

Transient Fisher information

Tully-Fisher relationships

Various Rubber and Elastomeric Tank Linings—Acme-Fisher

Water Karl Fisher determination

Water Karl Fisher titration

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