Abstract

A visual comparison method for semiquantitative spectrographic analysis of plant ash by dc arc technique has been applied to a wide variety of plant material. A split slit technique utilizing a Hartmann diaphragm and step filter assemblage enables the simultaneous recording of volatile elements from a short burn at 100% transmission and less volatile elements from a total energy burn at 15% transmission from the same electrode charge. Volatile elements, e.g., Ag, As, Bi, etc., are thus detected at low concentrations without the necessity of a separate analysis. Standards in a plant ash base are prepared in progressively lower concentrations from spectrographically pure powders in ranges applicable to most plants. Results are reported as six possible logarithmically spaced intervals per order of magnitude. Results show the repeatability to be within one reporting interval of the standards at the 68% confidence level and within two reporting intervals of the standards at the 95% confidence level. The over-all speed of the method suggests an application to large numbers of samples, and the analysis of more than 800 samples per man-month attests to the value of this method in reconnaissance studies.

Wide Range Analysis for Zinc Using Spectrographic Line Widths

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J. Opt. Soc. Am. 38(9) 800-803 (1948)

The Spectrographic Analysis of Ferro-Silicon

J. H. Coulliette
J. Opt. Soc. Am. 37(8) 609-613 (1947)

A Method of Spectrographic Analysis of Impurities in Materials for Oxide Coating of Thermionic Cathodes*

T. J. Organ and S. L. Parsons
J. Opt. Soc. Am. 38(2) 191-195 (1948)

A Study of the Applicability of the Pressed Pellet Electrode Method to the Spectrographic Analysis of Nickel Alloys*

C. J. Neuhaus
J. Opt. Soc. Am. 33(3) 167-174 (1943)

The Lundegardh Flame Method of Spectrographic Analysis*†

Victor R. Ells
J. Opt. Soc. Am. 31(8) 534-542 (1941)