. Carnegie Institution of Washington publication. CARBONATES AND SILICATES. 81 /*• From the present curves, which include more observations in the same region, it will be noticed that his last observation was in the midst of a reflection band, beyond which the reflecting power decreases to a low value as it approaches the /x, band. 30%. 56789 /• FIG. 65.—Potassium uitrate (a); Enstatite. POTASSIUM NITRATE (KNO»). (Curve a, fig. 65.) This compound shows a sharp maximum at ^. As was noticed elsewhere, the great shift of this maximum, as compared with the band formed in the transm
. Carnegie Institution of Washington publication. CARBONATES AND SILICATES. 81 /*• From the present curves, which include more observations in the same region, it will be noticed that his last observation was in the midst of a reflection band, beyond which the reflecting power decreases to a low value as it approaches the /x, band. 30%. 56789 /• FIG. 65.—Potassium uitrate (a); Enstatite. POTASSIUM NITRATE (KNO»). (Curve a, fig. 65.) This compound shows a sharp maximum at ^. As was noticed elsewhere, the great shift of this maximum, as compared with the band formed in the transmission curve, is due entirely to the great difference in the reflection on both sides of the transmission curve, which is given without correction for reflection. ENSTATITE (MgSiOs). (Curve b, fig. 65.) This mineral is a mass of fine crystals. The reflecting power is low; there is a small maximum at /*.. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Carnegie Institution of Washington. Washington, Carnegie Institution of Washington
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