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Shadowing losses

Shadowing losses from sample or optic supports... [Pg.278]

Fig. 1.3 Relaxation map of polyisoprene results from dielectric spectroscopy (inverse of maximum loss frequency/w// symbols), rheological shift factors (solid line) [7], and neutron scattering pair correlation ((r(Q=1.44 A )) empty square) [8] and self correlation ((t(Q=0.88 A" )) empty circle) [9],methyl group rotation (empty triangle) [10]. The shadowed area indicates the time scales corresponding to the so-called fast dynamics [11]... Fig. 1.3 Relaxation map of polyisoprene results from dielectric spectroscopy (inverse of maximum loss frequency/w// symbols), rheological shift factors (solid line) [7], and neutron scattering pair correlation ((r(Q=1.44 A )) empty square) [8] and self correlation ((t(Q=0.88 A" )) empty circle) [9],methyl group rotation (empty triangle) [10]. The shadowed area indicates the time scales corresponding to the so-called fast dynamics [11]...
In a study of 57 workers exposed to mica dust, 5 of six workers exposed to concentrations in excess of 2 5 million particles per cubic foot (mppcf) for more than 10 years had pneumoconiosis. The most characteristic finding by chest X ray was fine granulation of uneven density there was a tendency, in some cases, to a coalescence of shadows. The symptoms most frequently reported were chronic cough and dyspnea complaints of weakness and weight loss were less frequent. Only one of six workers exposed more than 10 years at concentrations in excess of 25 mppcf failed to show evidence of pneumoconiosis. [Pg.498]

And passed into the Nameless, as a cloud Melts ntq Hcitui, I touched my Jonhs (be limbi Were strange. not mine—bid yet no shadow of doubt. But titter dearness, end thraugli loss of Self The gain of such large life as matched with aura Wert Sun to spark, uasbidowible in words ... [Pg.33]

The term Qsh is the net solar radiant energy absorption rate on the basin bottom. It is equivalent to total radiation incident on the basin cover minus reflection from the cover, the water surface, and the basin bottom, and minus loss due to structural shadowing. Its determination from Weather Bureau records of total daily radiation on a horizontal surface is complicated by many factors such as variation in angle of incidence, and resulting transmissivity of cover, hourly and seasonally, intensity change due to cloudiness, and different properties of direct and diffuse radiations. Detailed explanation of these meteorological and optical calculations is beyond the scope of this paper, but may be found in the literature (6). [Pg.165]

The publication of this volume takes place in the shadow of the sudden and unexpected loss, to the Advances in Catalysis, of two of its prominent founders, and, to the world, of two beloved members of the community of scientists, Dr. W. G. Frankenburg and Dr. V. I. Komarewsky. It seems appropriate to turn back to the Preface of Volume I of the Advances, and to examine the views and hopes which the editors expressed one decade ago concerning the status of the catalytic science and the role which they visualized for the then new-born publication. [Pg.334]

Another combination is to use any sepia or polysulfide toner, then Kodak T-26 Blue Toner. To use this combination, wash the print thoroughly after using sepia or polysulfide toner then use T-26 as per directions. The red tone should appear after approximately 15 to 30 minutes in this solution at 90F/32C. This technique usually produces a density loss in the shadows. Start with a print that has higher-than-normal contrast. Cold-tone papers will produce a truer red warm-tone papers will produce an orange hue. [Pg.114]

A 73-year-old man with a history of breathlessness, cough, and weight loss had some ill-defined peripheral shadow in the upper zones of a chest X-ray. He had fiberoptic bronchoscopy with cocaine and lidocaine and 5 minutes later became distressed, with dyspnea, chest pain, and tachycardia. Electrocardiography showed an evolving anterior myocardial infarction. Coronary angiography showed a stenosis of less than 25% in the proximal left anterior descending artery with coronary artery spasm. He made an uneventful recovery. [Pg.491]

The result of this corrosion is the formation of a porous and usually brittle shadow of the original component. Other alloy systems are susceptible to this form of corrosion. Examples include the selective loss of aluminum in aluminum-copper alloys, and the loss of iron in cast iron-carbon steels. [Pg.784]

The other news came from the Pope, who emerged from his summer residence (he saw his shadow, so expect a mild winter) to say that working too hard was bad for the spirit and could lead to loss of intelligence. I had to read that one twice. [Pg.14]

Figure 1.3 Typical ETA cell geometries. The interfaces between the absorber and electron and hole transport layers are structured, usually in porous (Fig. 1.3a) or columnar (Fig. 1.3b) form. The interfaces between the transport layers and the contact layers are planar. If the substrate morphology is porous, both transport layers should be transparent to avoid shadowing effects. The contact layer on the light entry side must be transparent and the back contact should be reflective, to minimise optical losses outside the absorber layer. If the interfacial structuring is not very deep, it is possible to omit the hole transport layer, and deposit the back contact straight onto the ETA layer, which greatly simplifies device fabrication. Figure 1.3 Typical ETA cell geometries. The interfaces between the absorber and electron and hole transport layers are structured, usually in porous (Fig. 1.3a) or columnar (Fig. 1.3b) form. The interfaces between the transport layers and the contact layers are planar. If the substrate morphology is porous, both transport layers should be transparent to avoid shadowing effects. The contact layer on the light entry side must be transparent and the back contact should be reflective, to minimise optical losses outside the absorber layer. If the interfacial structuring is not very deep, it is possible to omit the hole transport layer, and deposit the back contact straight onto the ETA layer, which greatly simplifies device fabrication.
See other pages where Shadowing losses is mentioned: [Pg.269]    [Pg.294]    [Pg.294]    [Pg.169]    [Pg.170]    [Pg.269]    [Pg.294]    [Pg.294]    [Pg.169]    [Pg.170]    [Pg.322]    [Pg.153]    [Pg.439]    [Pg.258]    [Pg.549]    [Pg.237]    [Pg.231]    [Pg.212]    [Pg.211]    [Pg.491]    [Pg.158]    [Pg.219]    [Pg.218]    [Pg.215]    [Pg.21]    [Pg.49]    [Pg.7]    [Pg.400]    [Pg.417]    [Pg.776]    [Pg.392]    [Pg.1227]    [Pg.200]    [Pg.577]    [Pg.679]    [Pg.188]    [Pg.341]    [Pg.447]    [Pg.490]   
See also in sourсe #XX -- [ Pg.294 ]



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