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Instrumentation for

VME bus. It is possible to plug other standard VME boards in the ET instrument. For example, it is possible to add a DSP board, and carry out on-line analysis. But there is also CPU time left to add signal processing on the eddy current board itself. (For example on-line mixing of signals at 2 different frequencies). [Pg.277]

Advances in Instrumentation for Remote Field Eddy Current Inspection. [Pg.319]

MSIA Spectrum develops and manufactures more than 50 types of different instruments for NDT and TD to solve the technogenic safety issues. [Pg.911]

A recent design of the maximum bubble pressure instrument for measurement of dynamic surface tension allows resolution in the millisecond time frame [119, 120]. This was accomplished by increasing the system volume relative to that of the bubble and by using electric and acoustic sensors to track the bubble formation frequency. Miller and co-workers also assessed the hydrodynamic effects arising at short bubble formation times with experiments on very viscous liquids [121]. They proposed a correction procedure to improve reliability at short times. This technique is applicable to the study of surfactant and polymer adsorption from solution [101, 120]. [Pg.35]

Tlie best place to start for a detailed look at the instrumentation for the study of ion-molecule chemistry. [Pg.829]

There are two fimdamental types of spectroscopic studies absorption and emission. In absorption spectroscopy an atom or molecule in a low-lying electronic state, usually the ground state, absorbs a photon to go to a higher state. In emission spectroscopy the atom or molecule is produced in a higher electronic state by some excitation process, and emits a photon in going to a lower state. In this section we will consider the traditional instrumentation for studying the resulting spectra. They define the quantities measured and set the standard for experimental data to be considered. [Pg.1120]

The traditional instruments for measuring emission and absorption spectra described above set the standard for the types of infonnation which can be obtained and used by spectroscopists. In the more recent past, several new... [Pg.1122]

McCreery R L 1996 Instrumentation for dispersive Raman spectroscopy Modern Techniques in Raman Spectroscopy ed J J Laserna (New York Wiley)... [Pg.1226]

Time, Cost, and Equipment Acid-base titrations require less time than most gravimetric procedures, but more time than many instrumental methods of analysis, particularly when analyzing many samples. With the availability of instruments for... [Pg.313]

A simple instrument for measuring absorbance that uses absorption or interference filters to select the wavelength. [Pg.388]

Instrument Designs for Infrared Absorption The simplest instrument for IR absorption spectroscopy is a filter photometer similar to that shown in Figure 10.24 for UV/Vis absorption. These instruments have the advantage of portability and typically are used as dedicated analyzers for gases such as ITCN and CO. [Pg.393]

The basic design of instrumentation for monitoring molecular fluorescence and molecular phosphorescence is similar to that found for other spectroscopies. The most significant differences are discussed in the following sections. [Pg.427]

Molecular Fluorescence A typical instrumental block diagram for molecular fluorescence is shown in Figure 10.45. In contrast to instruments for absorption spectroscopy, the optical paths for the source and detector are usually positioned at an angle of 90°. [Pg.427]

An instrument for measuring fluorescence that uses filters to select the excitation and emission wavelengths. [Pg.428]

Molecular Phosphorescence Instrumentation for molecular phosphorescence must discriminate between phosphorescence and fluorescence. Since the lifetime for fluorescence is much shorter than that for phosphorescence, discrimination is easily achieved by incorporating a delay between exciting and measuring phosphorescent emission. A typical instrumental design is shown in Figure 10.46. As shown... [Pg.428]

The evaluation of instrumentation for molecular UV/Vis spectroscopy is reviewed in the following pair of papers. Altermose, 1. R. Evolution of Instrumentation for UV-Visible Spectrophotometry Parti, /. Chem. Educ. 1986, 63, A216-A223. [Pg.458]

Time, Cost, and Equipment In comparison with competing methods, potentiome-try provides a rapid, relatively low-cost means for analyzing samples. Commercial instruments for measuring pH or potential are available in a variety of price ranges and include portable models for use in the field. [Pg.496]

See other pages where Instrumentation for is mentioned: [Pg.34]    [Pg.62]    [Pg.151]    [Pg.311]    [Pg.333]    [Pg.121]    [Pg.189]    [Pg.273]    [Pg.496]    [Pg.581]    [Pg.685]    [Pg.912]    [Pg.961]    [Pg.970]    [Pg.1059]    [Pg.1122]    [Pg.1331]    [Pg.1344]    [Pg.1385]    [Pg.1625]    [Pg.1807]    [Pg.1143]    [Pg.144]    [Pg.25]    [Pg.279]    [Pg.314]    [Pg.388]    [Pg.388]    [Pg.424]    [Pg.435]    [Pg.446]   
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