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Resistive cooling

Fig. 5. Resistive cooling of the cyclotron motion of a single 12C5+ ion. The time constant of the exponential cooling is 100 s... Fig. 5. Resistive cooling of the cyclotron motion of a single 12C5+ ion. The time constant of the exponential cooling is 100 s...
The design of an electrolytic cell for a controlled potential reaction may vary widely2, 50-53 in the construction of such cells, problems such as ohmic resistance, cooling, flexibility, durability, choice of diaphragm to separate anode and cathode compartments, and ease of construction are considered. [Pg.233]

In a similar way also the cyclotron motion can be cooled and detected when the tank circuit connecting two segments of the splitted correction electrode is kept in resonance with the ions cyclotron frequency. Fig. 5 shows an example for resistive cooling of the cyclotron motion of a single 12( 5+ calibration... [Pg.209]

Moreover, the cooling efficiency will be different for different water jacket structure. The cooling channel structure should be evaluated comprehensively considering the cispects of cooling efficiency, heating uniformity, channel flow resistance, cooling economic. [Pg.335]

The acconunodation coefficient for Kr on a carbon filament is determined experimentally as follows. The electrically heated filament at temperature 72 is stretched down the center of a cylindrical cell containing Kr gas at 7. Gas molecules hitting the filament cool it, and to maintain its temperature a resistance heating of Q cal sec cm is needed. Derive from simple gas kinetic theory the expression... [Pg.672]

Measurement by Thermal Effects. When a fine wire heated electrically is exposed to a flowing gas, it is cooled and its resistance is changed. The hot-wire anemometer makes use of this principle to measure both the average velocity and the turbulent fluctuations in the flowing stream. The fluid velocity, L, is related to the current, /, and the resistances, R, of the wire at wire, and gas, g, temperatures via... [Pg.110]

Flexural modulus increases by a factor of five as crystallinity increases from 50 to 90% with a void content of 0.2% however, recovery decreases with increasing crystallinity. Therefore, the balance between stiffness and recovery depends on the appHcation requirements. Crystallinity is reduced by rapid cooling but increased by slow cooling. The stress—crack resistance of various PTFE insulations is correlated with the crystallinity and change in density due to thermal mechanical stress (118). [Pg.354]

Modified ETEE is less dense, tougher, and stiffer and exhibits a higher tensile strength and creep resistance than PTEE, PEA, or EEP resins. It is ductile, and displays in various compositions the characteristic of a nonlinear stress—strain relationship. Typical physical properties of Tef2el products are shown in Table 1 (24,25). Properties such as elongation and flex life depend on crystallinity, which is affected by the rate of crysta11i2ation values depend on fabrication conditions and melt cooling rates. [Pg.366]

The product must be formulated and frozen in a manner which ensures that there is no fluid phase remaining. To achieve this, it is necessary to cool the product to a temperature below which no significant Hquid—soHd phase transitions exist. This temperature can be deterrnined by differential scanning calorimetry or by measuring changes in resistivity (94,95). [Pg.530]

Chemical Factors. Because knock is caused by chemical reactions in the engine, it is reasonable to assume that chemical stmcture plays an important role in determining the resistance of a particular compound to knock. Reactions that produce knock are generally free-radical chain-type reactions which are different from those that occur in the body of the flame the former occur at lower temperatures and are called cool flame reactions. [Pg.179]


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See also in sourсe #XX -- [ Pg.208 ]




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