This was probably the most analytical thinking I've done in the shower about the process of showering itself.
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Home to more than 640m people, the variety of the region's 11 countries defies most analytical attempts at clustering them together.
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Or maybe it's Carlos Asauaje, an intriguing secondary piece of the Kimbrel haul and one of the game's most analytical minds.
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But those execs should take a closer look and ask why one of the most analytical companies in entertainment just made this move.
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Incumbents have the consumers' trusted brand perception and existing coverage network, regulator's policed compliance and licenses, as well as the most analytical actuarial talents.
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The most analytical article on the subject, which came in the wake of a Twitter tiff between US journalist Carl Zimmer and Venter, appeared on US health and medicine website STAT.
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Tetrodotoxin may be quantified in serum, whole blood or urine to confirm a diagnosis of poisoning in hospitalized patients or to assist in the forensic investigation of a case of fatal overdosage. Most analytical techniques involve mass spectrometric detection following gas or liquid chromatographic separation.
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Because every protein is different no method can capture the properties of each protein. For instance, most analytical methods that work fine with soluble proteins deal poorly with membrane proteins. This is also true for Y2H and AP/MS technologies. Interactomes are not nearly complete with perhaps the exception of S. cerevisiae.
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For instance, chromium (III) might be measured using a chemiluminescence method, in an instrument that contains a photomultiplier tube (PMT) as the detector. The detector converts the light produced by the sample into a voltage, which increases with intensity of light. The amount of light measured is the analytical signal. Most analytical techniques use a calibration curve.
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His name is based on the Toyota Corolla Levin. ; :Voiced by: Seiichirō Yamashita The most analytical of all the princes, Soarer is the last of the Prince Candidates. He is very calm yet smart and often analyzes his surroundings during each Lady Exams he's in. He is also very good on fencing and Mizuki has an interest towards him.
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The method of standard addition is used in instrumental analysis to determine concentration of a substance (analyte) in an unknown sample by comparison to a set of samples of known concentration, similar to using a calibration curve. Standard addition can be applied to most analytical techniques and is used instead of a calibration curve to solve the matrix effect problem.
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Certified Reference Materials (CRMs) are ‘controls’ or standards used to check the quality and metrological traceability of products, to validate analytical measurement methods, or for the calibration of instruments. A certified reference material is a particular form of measurement standard. Reference materials are particularly important for analytical chemistry and clinical analysis. Since most analytical instrumentation is comparative, it requires a sample of known composition (reference material) for accurate calibration.
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In principle, most analytical techniques can be used, or easily adapted, to monitor the temperature- dependent properties of foods, e.g., spectroscopic (nuclear magnetic resonance, UV-visible, infrared spectroscopy, fluorescence), scattering (light, X-rays, neutrons), physical (mass, density, rheology, heat capacity) etc. Nevertheless, at present the term thermal analysis is usually reserved for a narrow range of techniques that measure changes in the physical properties of foods with temperature (TG/DTG, differential thermal analysis, differential scanning calorimetry and transition temperature).
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In analytical chemistry, sample preparation refers to the ways in which a sample is treated prior to its analyses. Preparation is a very important step in most analytical techniques, because the techniques are often not responsive to the analyte in its in-situ form, or the results are distorted by interfering species. Sample preparation may involve dissolution, extraction, reaction with some chemical species, pulverizing, treatment with a chelating agent (e.g. EDTA), masking, filtering, dilution, sub-sampling or many other techniques.
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Since the molecule has a hydroxyl (-OH) group, it is frequently bound to other lipids including glycerols; most analytical methods, therefore, utilise a strong alkali (KOH or NaOH) to saponify the ester linkages. Typical extraction solvents include 6% KOH in methanol. The free sterols are then separated from the polar lipids by partitioning into a less polar solvent such as hexane. Prior to analysis, the hydroxyl group is frequently derivatised with BSTFA (bis-trimethyl silyl trifluoroacetamide) to replace the hydrogen with the less exchangeable trimethylsilyl (TMS) group.
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As it is the case for most analytical instruments, also in PTR-MS there has always been a quest for sensitivity improvement and for lowering the detection limit. However, until 2012 these improvements were limited to optimizations of the conventional setup, i.e. ion source, DC drift tube, transfer lens system, mass spectrometer (compare above). The reason for this conservative approach was that the addition of any RF ion focusing device negatively affects the well-defined PTR-MS ion chemistry, which makes quantification complicated and considerably limits comparability of measurement results obtained with different instruments.
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The principles of lean manufacturing have been difficult at times to migrate to laboratories because they are quite different from manufacturing environments. In the hospital laboratory, for example, difficulties arise with the "staunch adherence to traditional laboratory practices, complexity of workflow, and marked variability in sample numbers." In pharmaceutical and biopharmaceutical labs, "the limiting belief" that procedures are so different that lean won't work often slow down adoption. Compared to manufacturing environments, most analytical and microbiological laboratories have a relatively low volume of samples but a high degree of variability and complexity.
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Since the molecule has a hydroxyl (-OH) group, it is frequently bound to other lipids including fatty acids; most analytical methods, therefore, utilise a strong alkali (KOH or NaOH) to saponify the ester linkages. Typical extraction solvents include 6% KOH in methanol. The free sterols and stanols (saturated sterols) are then separated from the polar lipids by partitioning into a less polar solvent such as hexane. Prior to analysis, the hydroxyl group is frequently derivatised with BSTFA (bis- trimethyl silyl trifluoroacetamide) to replace the hydrogen with the less exchangeable trimethylsilyl (TMS) group.
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An after action report (or AAR) is any form of retrospective analysis on a given sequence of goal-oriented actions previously undertaken, generally by the author themselves. The two principal forms of AARs are the literary AAR, intended for recreational use, and the analytical AAR, exercised as part of a process of performance evaluation and improvement. In most cases, AARs are a combination of both. Most analytical AARs are conducted over a contemporary problem or situation that has occurred in the past, is happening right now, or what could happen in the future.
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Toxic metals can be present in the aqueous environment at trace or ultra-trace concentrations, yet still be toxicologically significant and thus cause harm to humans or the environment. Because these concentrations are so low, they would fall beyond the detection limits of most analytical instruments if the media had been sampled using traditional grab samples.Petty, J.D., Huckins, J.N. Alvarez, D.A., Brumbaugh, W.G., Cranor W.L., Gale, R.W., Rastall, A.C., Jones-Lepp T.L., Leiker T.J., Rostad C.E., Furlong E.T., 2004. A holistic passive integrative sampling approach for assessing the presence and potential impacts of waterborne environmental contaminants.
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Simeon, portrayed by veteran television and film actor Robert Knepper, is introduced as a Lucian Alliance soldier during the incursion. His loyalties so far have remained vague except to support the strongest or most capable leader at any given time, first following Commander Kiva, then Varro, and then Dannic until the incursion comes to an end. Of the Lucian soldiers, he is the only one to doubt Telford's account of the shootout with Commander Kiva, questioning how Telford could have been taken by surprise and shot in the front instead of his back. Besides Varro, he is the most analytical of the Lucian soldiers.
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Scholarship treats wartime correspondence from the Balkan Wars as first-hand evidence, and historian Wolfgang Höpken says that those sources need to be handled carefully. Höpken says that although reporters (such as Trotsky) who provided firsthand information were not near the theatre of war, Trotsky's accounts of the Balkan Wars were "some of the most brilliant and most analytical war reports". Contemporary journalists based in the Balkans, such as Richard von Mach from the Kölnische Zeitung, said that accounts were often from a third party or "even pure fiction". Writers like Carl Pauli obtained their information from unnamed witnesses or gathered evidence from the extensive compilation by Leo Freundlich, who wrote about the Albanian conflict zone with empathy for its Albanian victims.
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Garviel Loken is a major character in the opening stages of the Horus Heresy and is a main character in the first three novels of the Horus Heresy series published by black library. He is the Captain of the 10th Company and joins the Mournival, an informal body advising Warmaster Horus along with the other three members of the Mournival, Horus Aximand, "little Horus," Ezekyle Abbadon and Tarik Torgaddon. Horus says of Loken that he is "a precise and accurate thinker," and he is portrayed as having one of the most analytical and perceptive minds of the Legion. He anticipates the betrayal and strife that ultimately results from it, in a way none of the other Sons of Horus do.
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Most analytical pneumatic nebulizers use the same essential principle (induction) to atomize the liquid: When gas at a higher pressure exits from a small hole (the orifice) into gas at a lower pressure, it forms a gas jet into the lower pressure zone, and pushes the lower pressure gas away from the orifice. This creates a current in the lower pressure gas zone, and draws some of the lower pressure gas into the higher pressure gas jet. At the orifice, the draw of the lower pressure gas creates considerable suction, the extent depending on the differential pressures, the size of the orifice, and the shape of the orifice and surrounding apparatus. In all pneumatic induction nebulizers, the suction near the orifice is utilized to draw the liquid into the gas jet.
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