[45] J. Schetelig, Centr. Min. 1911, 721.

Thortveitite is the first mineral to be discovered in which the content of scandia is greater than 2 per cent.; in 1908 Crookes[46] examined a very large number of yttria minerals for scandia, and finally chose for extraction of the earth [Wiikite] (q.v.) which has a scandia content of 1·2 per cent.[47]

[46] Phil. Trans. 1908, A, 209, 15.

[47] According to Eberhard, some varieties of Wiikite have a much lower scandia content.

Thortveitite is orthorhombic; a : b : c = 0·7456 : 1 : 1·4912; commonly combinations of pyramids o {111} and s {211} with prism m {110}, in radial aggregates of crystals elongated parallel to the c axis. Cleavage parallel to m, fair. Twin plane m (110), twinning very common.

Refraction strong; birefringence strong, negative. Acute bisectrix perpendicular to (001), plane of the optic axes (010). Hardness, 6-7; sp. gr. 3·571. Extremely brittle; lustre brilliant, vitreous to adamantine. Colour, greyish-green, white to reddish-grey on alteration; in transmitted light yellowish-green, after ignition, reddish; the change being probably due to presence of oxides of iron.

It is fusible with difficulty, and only partially attacked by hydrochloric acid. It was found by Thortveit, in 1910, in a pegmatite vein in granite, at Iveland, Sätersdalen, S. Norway, accompanied by euxenite, monazite, beryl, and the usual vein-materials (quartz, felspar, etc.). It was analysed and recognised as a new mineral by Schetelig (loc. cit.).

The following minerals, of which particulars will be found in the alphabetical list, also belong to this class:

Bagrationite, Bodenite, and Muromontite, varieties of allanite with differences in composition and physical properties.

Yttrialite, a weathered variety of gadolinite.