Unemployment insurance and the Utah economy, 1962-1969. Fou̇rth quadrennial study of unemployment insurance financing in Utah, March 1963.

Previous studies appeared in the Department's Annual reports for 1950, 1954, and 1958.

Ten years of insured employment in Utah. Chart series, 1937 to 1946, 2 and 3 digit basis.

Mode of access: Internet.

Ten years of insured employment in Utah. Payroll and employment series, 1937 to 1946, 2 digit basis.

Mode of access: Internet.

Utilization of tax resources by state government in Utah ... A report to the Tax study committee established by the 1945 legislature, Dilworth Walker ... director of research.

Mode of access: Internet.

Local government in Utah; a report to the Utah Legislative Council.

Mode of access: Internet.

Bulletin of the Utah Engineering Experiment Station.

Includes proceedings of several conferences.

Bulletin of the Utah Engineering Experiment Station.

Numbered also in the university's Bulletin series

Acts, resolutions and memorials passed at the annual sessions of the Legislative Assembly of the Territory of Utah

1851-1876 (microfilm); 1851-1876 (microfiche).

Laws of the Territory of Utah passed by the Legislative Assembly.

Title varies slightly.

Proceedings of the Territorial Bar Association of Utah.

Includes the Association's constitution, by-laws, and list of members.

Report of the ... annual meeting of the Territorial Bar Association of Utah.

Includes the Association's constitution, by-laws, and list of members.

Water resources data for Utah.

Mode of access: Internet.

Removal of toxic arsenic and antimony from groundwater Spiro Tunnel Bulkhead in Park City Utah using colloidal iron hydroxide : comparison with reverse ssmosis

Verification testing of two model technologies in pilot scale to remove arsenic and antimony based on reverse osmosis and chemical coagulation/filtration systems was conducted in Spiro Tunnel Water Filtration Plant located in Park City, Utah, US. The source water was groundwater in abandoned silver mine, naturally contaminated by 60-80 ppb of arsenic and antimony below 10 ppb. This water represents one of the sources of drinking water for Park City and constitutes about 44% of the water supply. The failure to remove antimony efficiently by coagulation/filtration (only 4.4% removal rate) under design conditions is discussed in terms of the chemistry differences between Sb (III, V) and As (III, V). Removal of Sb(V) at pH > 7, using coagulation/filtration technology, requires much higher (50 to 80 times) concentration of iron (III) than As. The stronger adsorption of arsenate over a wider pH range can be explained by the fact that arsenic acid is tri-protic, whereas antimonic acid is monoprotic. This difference in properties of As(V) and Sb(V) makes antimony (V) more difficult to be efficiently removed in low concentrations of iron hydroxide and alkaline pH waters, especially in concentration of Sb < 10 ppb.

Neogene through Pleistocene paleoclimate of the Great Salt Lake region, northeastern Great Basin, USA

In a cooperative agreement between Amoco Production Company and the University of Arizona Geosciences Department, extensive data and resources associated with 15 deep wells drilled in the Great Salt Lake are currently on loan at the University of Arizona. Seismic data, electric and lithologic logs, cuttings and previously-prepared pollen slides will eventually permit a thorough study of both the tectonic and climatic history of the Great Salt Lake region. The preliminary study presented here concentrates on the Late Tertiary and Pleistocene climatic reconstruction of the eastern Great Basin through examination of fossil pollen.