short exposures, so that the phenomena can be recorded at short intervals during the eclipse.
(2) The most intense images of the prominences are produced b j the H and K radiations of calcium. Those depicted by the rays of hydrogen and helium are less intense, and do not reach to so great a height.
(3) The forms of the prominences photographed in monochromatic light (H and K), during the eclipse of 1893, do not differ sensibly from those photographed at the same time with the coronagraph.
(4) The undoubted spectrum of the corona in 1893 consisted of eight rings, including that due to 1474 K. The evidence that these belong to the corona is absolutely conclusive. It is probable that they are only represented by feeble lines in the Fraunhofer spectrum, if present at all.
(5) All tho coronal rings recorded were most intense in the brightest coronal regions, near the sun’s equator, as depicted by the coronagraph.
(6) The strongest coronal line, 1474 K, is not represented in the spectrum of the chromosphere and prominences, while H and K do not appear in the spectrum of the corona, although they are the most intense radiations in the prominences.
(7) comparison of the results with those obtained in previous eclipses confirms the idea that 1474 K is brighter at the maximum than at the minimum sun-spot period.
(8) Hydrogen rings were not photographed in the coronal spectrum of 1893.
(9) D3 was absent from the coronal spectrum of 1893, and reasons are given which suggest that its recorded appearance in 1882 was simply a photographic effect due to the unequal sensitiveness of the isochromatic plate employed.
(10) There is distinct evidence of periodic changes of the continuous spectrum of the corona.
(11) Many lines hitherto unrecorded in the chromosphere and prominences were photographed by the prismatic cameras.
(12) lhe preliminary investigation of the chemical origins of the chromosphere and prominence lines enables us to state generally that the chief lines are due to calcium, hydrogen, helium, strontium, iron, magnesium, manganese, barium, chromium, and aluminium. Hone of the lines appear to be due to nickel, cobalt, cadmium, tin, zinc, silicon, or carbon.
(13) The spectra of the chromosphere and prominences become more complex as the photosphere is approached.
(14) In passing from the chromosphere to the prominences, some lines become relatively brighter but others dimmer. The same line sometimes behaves differently in this respect in different prominences.
