Practical solution of torsional vibration problems, with examples from marine, electrical, aeronautical, and automobile engineering practice,

"Printed in Great Britain."

A text-book on applied mechanics ; specially arranged for the use of science and art, city and guilds of London Institute and other engineering students. Volume 1 /

Mode of access: Internet.

Direct support and general support maintenance manual (including repair parts and special tools list for direct support, general support, and depot maintenance) : periscope, tank, M50 (1240-00-950-2805) and associated equipment items, wiper assembly, data transmission linkage assembly, guard and shield assembly, and components of washer pump and reservoir.

Includes index.

Satisfying the salaried employee; a practical manual for building better relations with all categories of white collar people: technical and professional, clerical and stenographic, staff personnel, supervisory and administrative, engineering and scientific, sales and research.

Mode of access: Internet.

Manufacture of gasoline and benzene-toluene from petroleum and other hydrocarbons,

Running title: Gasoline and benzene-toluene.

Hydrologic summary, New Mexico streamflow and reservoir content,

Mode of access: Internet.

Discussion of the precision of measurements : with examples taken mainly from physics and electrical engineering /

Advertising section at the end of the book.

Directory of Activities of the Bureau of Plant Industry, Soils, and Agricultural Engineering 1952.

Mode of access: Internet.

Industrial and Operations Engineering Building

Originally Research Administration. On verso: N.Campus. ORA Headquarters. Research Adm.

Contribution from the Office of Public Roads and Rural Engineering

Mode of access: Internet.

Scientific papers, Dept. of Chemistry and Chemical Engineering.

Mode of access: Internet.

The cultural resource inventory of the John Martin Dam and Reservoir, Bent County Colorado /

Item 337

Polymers and resins: their chemistry and chemical engineering.

Includes bibliography.

Engineering mechanics; electrical, civil, mechanical, and mining engineering.

Nos. [1]-240, 1882-91, form v. 1-13; nos. 241-310, 1892-Oct. 1897, have no volume numbers; nos. 311-336, Nov. 1897-1899, form v. 16, nos. 11-12, v. 17-18, no. 11.

Scaffolds, stem cells, and tissue engineering: A potent combination!

Stem cells, either from embryonic or adult sources, have demonstrated the potential to differentiate into a wide range of tissues depending on culture conditions. This makes them prime candidates for use in tissue engineering applications. Current technology allows us to process biocompatible and biodegradable polymers into three-dimensional (3D) configurations, either as solid porous scaffolds or hydrogels, with controlled macro and/or micro spatial geometry and surface chemistry. Such control provides us with the ability to present highly controlled microenvironments to a chosen cell type. However, the precise microenvironments required for optimal expansion and/or differentiation of stem cells are only now being elucidated, and hence the controlled use of stem cells in tissue engineering remains a very young field. We present here a brief review of the current literature detailing interactions between stem cells and 3D scaffolds of varying morphology and chemical properties, concluding with remaining challenges for those interested in tissue engineering using tailored scaffolds and stem cells.