Hydroxide in olivine: A quantitative determination of the absolute amount and calibration of the IR spectrum

ABSTRACT The effects have been studied in albino rats of experimental stress, adrenalectomy, hypophysectomy and somatotrophin (STH) on the relative serum protein fractions, as determined from estimations of serum protein concentrations and the results of paper electrophoretic separation. In addition, the absolute amounts of serum proteins obtained from concurrent electrophoretic separation, estimation of serum protein concentration and determination of plasma volume were studied. It appeared inter alia that hypophysectomy gave rise to a reduction in the absolute amount of serum proteins, which was due to a reduction in the albumin + alpha1 globulin fraction while the other globulin fractions remained unaffected. STH administration caused an increase in both the albumin and globulin fractions in hypophysectomized rats. Formalin stress was accompanied by changes in the electrophoretic spectrum suggesting an increased globulin synthesis. Since stress is known to give rise to a proliferation of the lymphoid organs which, at least to some extent, is caused by STH we consider it justifiable to conclude that the probable enhancement of globulin synthesis accompanying stress is due to the action of STH.

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The lethal concentration of acids and bases in respect of Paramœcium aurelia .

Proceedings of the Royal Society of London ◽

10.1098/rspl.1904.0088 ◽

1905 ◽

Vol 74 (497-506) ◽

pp. 100-104 ◽

Cited By ~ 4

Author(s):

J. O. Wakelin Barratt ◽

Victor Alexander Haden Horsley

Keyword(s):

Quantitative Determination ◽

Lethal Concentration ◽

Alkaline Solutions ◽

Absolute Weight ◽

Acids And Bases ◽

The Absolute ◽

Correct Understanding

The present investigation arose out of a research on chemiotaxis, in the course of which it became apparent that a pre-condition of the correct understanding of the nature of chemiotaxis is the quantitative determination of (1) the concentration of the acid and alkaline solutions employed for the study of chemiotactic phenomena, and also of (2) the absolute weight of Paramœcia (or other organisms) added to such solutions. So long as these data are unknown, chemiotaxis can only be investigated qualitatively, and such facts as are ascertainable solely by means of quantitative observations lie beyond the limits of research. In order that the acid and alkaline liquids employed may be readily comparable one with another, equimolecular solutions are employed in this investigation.

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The Microtome Method of the Determination of the Absolute Amount of Adsorption

The Journal of Physical Chemistry ◽

10.1021/j150331a020 ◽

1932 ◽

Vol 36 (1) ◽

pp. 300-311 ◽

Cited By ~ 34

Author(s):

J. W. McBain ◽

C. W. Humphreys

Keyword(s):

Absolute Amount ◽

The Absolute

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Polarity Determination in Sphalerite and Wurtzite Structures

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100136106 ◽

1990 ◽

Vol 48 (2) ◽

pp. 500-501

Author(s):

Stuart McKernan ◽

C. Barry Carter

Keyword(s):

Opposite Polarity ◽

Single Domain ◽

Polar Material ◽

Electron Microscopic ◽

Dynamical Interaction ◽

X Ray ◽

Polarity Determination ◽

The Absolute ◽

Microscopic Techniques

The determination of the absolute polarity of a polar material is often crucial to the understanding of the defects which occur in such materials. Several methods exist by which this determination may be performed. In bulk, single-domain specimens, macroscopic techniques may be used, such as the different etching behavior, using the appropriate etchant, of surfaces with opposite polarity. X-ray measurements under conditions where Friedel’s law (which means that the intensity of reflections from planes of opposite polarity are indistinguishable) breaks down can also be used to determine the absolute polarity of bulk, single-domain specimens. On the microscopic scale, and particularly where antiphase boundaries (APBs), which separate regions of opposite polarity exist, electron microscopic techniques must be employed. Two techniques are commonly practised; the first [1], involves the dynamical interaction of hoLz lines which interfere constructively or destructively with the zero order reflection, depending on the crystal polarity. The crystal polarity can therefore be directly deduced from the relative intensity of these interactions.

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