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The specific heat capacity of 8CB as a function of temperature for planar aligned samples .

The specific heat capacity variation in the N -BP -BP i-I transition region for S.S-MBBPC. The sharp peaks from non-adiabatic scanning through the N -BP and BP -BPni regions are due to latent heat effects at the first-order transitions. No such effects are seen for the BP -I transition, because this is only a continuous supercritical evolution not a true phase transition in this material .

The specific heat Cp app inMCM-41 -S confined water measured by using a modulated calorimeter. The tube diameters are 2.4 nm .

The specific heat measured in 5-methyl-2-hexanol in two different thermal rates . The sample is first cooled and then heated 120.

The specific heat of AUjs at low temperatures, with the specific heat—ealeu-lated with no free parameters—included as a full line the fine dashed line is the intercluster contribution, the coarse dashed line the intra-cluster contribution

The specific heat of calcium chloride solutions, cal g C .

The specific heat of liquid water calculated from the Weres-Rice model

The specific heat of quartz near a second-order phase transition.

The specific heat of the a-form .

The specific heat per lanthanide or actinide atom as a function of temperature, as predicted by the electronic polaron model .

The specific heat per spin versus temperature for noninteracting spins arranged on a simple cubic lattice. In each case, hj a 2a 0.003 and 0.006 from bottom to top. The inset shows the specific heat for noninteracting spins over a wider

The specific interfaciai area in an iPN goes through a broad maximum in the midrange compositions.

The specific interfacial surface area goes through a broad maximum as polystyrene content increases.

The specific Interfaclal surface area goes through a broad maximum as the polystyrene content Increases ,

The specific microenvironments defined by specific Eh

The specific rate of ethene polymerization at steady state as a function of the monomer concentration with MgCl2 Di TiCl4 Al3 at 50 C

The specific rate of photosynthesis as a function of photon flux density ph according to the model of Jassby and Platt. Photosynthesis is represented by the specific sugar production rate in the chloroplast ql. Parameter values based on high-light acclimated Chlorella sorokiniana

The specific rate of photosynthesis as a function of photon flux density ph. Photosynthesis is represented by the specific sugar production rate in the chloroplast 7s. Two models are shown

The specific rate of propene polymerization with an alteration of the mmiraner concentration in the course of single experiment at steady state with MgCl2 Di TiCl4 D2-Al3 at50 C , Monomer concentration, mol 1

The specific resistance to filtration of oil sands sludge as a function of pH. This behavior correlates to the behavior of G and ESA as a function of pH

The specific rotation of iohthyocol gelatin at 313 as a function of temperature. Protein concentration 1.67 mg ml. Solvent

The specific rotations of axes that define the Euler angles 9, 4 , and Y.

The specific sensitivities reported for germanium and indium arsenide photodiodes.

The specific structure of flux-promoting compound 6. S3 anchors to the membrane surface through N -aromatic interaction and the hydrophobic Si locates in the interior membrane, thereby spanning the oxyethylene part S2.

The specific surface area and pore volume of the knitted silica-fiber support as a function of calcination temperature.



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