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London Observer

Although many people under the influence of psychedelics have seen "trails —the simultaneous perception of several discrete moments, like the arc of a lighted cigarette in a dark room—Mayhew experienced this phenomenon to an unusual degree. For the London Observer he described his experience as an "Excursion Out of Time ... [Pg.241]

The Globalizer Who Came In From the Cold, London Observer, Wednesday,... [Pg.47]

Notes and Records Notes and Records of the Royal Society of London Observations Observations sur la physique... [Pg.541]

HSE. The Dust Lamp—A Simple Tool for Observing the Presence of Airborne Particles. MDHS 82. London HMSO, 1997. [Pg.1023]

Whittakeb, E. T. Robinson, G. (1937). The Calculus of Observation, chap. 9. London Blackie. [Pg.604]

Observations on the Acidic Hydrolysis of Some D-Glucosamine Derivatives," A. B. Foster, D. Horton, and M. Stacey, Chem. Ind. (London)., (1956) 175-176. [Pg.30]

The investigation shows agreement between the standard laminar incompressible flow predictions and the measured results for water. Based on these observations the predictions based on the analytical results of Shah and London (1978) can be used to predict the pressure drop for water in channels with as small as 24.9 pm. This investigation shows also that it is insufficient to assume that the friction factor for laminar compressible flow can be determined by means of the well-known analytical predictions for its incompressible counterpart. In fact, the experimental and numerical results both show that the friction factor increases for compressible flows as Re is increased for a given channel with air. [Pg.27]

The physicochemical forces between colloidal particles are described by the DLVO theory (DLVO refers to Deijaguin and Landau, and Verwey and Overbeek). This theory predicts the potential between spherical particles due to attractive London forces and repulsive forces due to electrical double layers. This potential can be attractive, or both repulsive and attractive. Two minima may be observed The primary minimum characterizes particles that are in close contact and are difficult to disperse, whereas the secondary minimum relates to looser dispersible particles. For more details, see Schowalter (1984). Undoubtedly, real cases may be far more complex Many particles may be present, particles are not always the same size, and particles are rarely spherical. However, the fundamental physics of the problem is similar. The incorporation of all these aspects into a simulation involving tens of thousands of aggregates is daunting and models have resorted to idealized descriptions. [Pg.163]

Evans, John. The universall medicine or the vertues of the antimoniall cup. Collected out of the experiments, and observations of the most famous, learned, and best approved philosophers, and physicians, that have written of that subject... London Printed by John Haviland, 1634. [16p.]... [Pg.59]

Midgley, R.]. A new treatise of natural philosophy, free d from the intricacies of the schools. Adorned with many curious experiments both medicinal and chymical. As also with several observations useful for the health of the body. London Printed by R E. for J. Hindmarsh, at the Golden Ball over against the Royal Exchange in Comhill, 1687. 342p. [Pg.72]

More, Henry. Observations upon Anthroposophia theomagica, and Anima magica abscondita. London Printed by J. Flesher, 1655. 3 p.l., p. 69-145... [Pg.72]

More, Henry. Observations upon Anthroposophia Theomagica, and Anima Magica Abscondita. By Alazonomastix Philalethes. .. London Printed at Parrhesia but are to be sold, by O. Pullen at the Rose in Pauls Churchyard, 1650. [6], 94, [3] p. [Pg.73]

Ross, Alexander. The philosophicall touch-stone or observations upon Sir Kenelm Digbie s discourses of the nature of bodies, and of the reasonable soule... London James Young, Charles Green, 1645. 13 lp. [Pg.91]


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