An experiment using real hardware and under real test conditions can be remotely conducted by engineering students and other interested individuals in the world via the Internet and with the capability of live video streaming from the test site. The presentation of this innovative experiment refers to the determination of the current voltage…

Discusses: (1) the design of the Fourier Transform-Infrared Spectroscopy (FT-IR) spectrometer; (2) the computation of the spectrum from the interferogram; and (3) the use of apodization. (Part II will discuss advantages of FT-IR over dispersive techniques and show applications of FT-IR to difficult spectroscopic measurements.) (JN)

The National Science Foundation's College Science Instrumentation Program (CSIP) provides four-year colleges with money to buy modern instruments. Accomplishments of the program during its first year (including 234 awards totaling $5.5 million) and future directions are summed up by Robert F. Watson, head of the CSIP program. (JN)

A project was designed to expose students to the complexities of designing an instrumentation and control system for the overall plant design. Project objectives, format, and student activities, accomplishments, and shortcomings are described. (JN)

Discusses two surface techniques: X-ray photoelectron spectroscopy (ESCA) and Auger electron spectroscopy (AES). Focuses on fundamental aspects of each technique, important features of instrumentation, and some examples of how ESCA and AES have been applied to analytical surface problems. (JN)

Presents two lists: (1) important considerations for any total chemical analysis and (2) a condensed version that can be used by students to evaluate each analytical procedure. Benefits of using the condensed version (such as seeing that instrumentation is only one of several components of an analysis) are noted. (JN)

Software-driven instrumentation makes measurements that demand a computer as an integral part of either control, data acquisition, or data reduction. The structure of such instrumentation, hardware requirements, and software requirements are discussed. Examples of software-driven instrumentation (such as wavelength-modulated continuum source…

Describes a birefringence apparatus that can be assembled for less than $100 and can be used to measure both the dimensions and dipole moments of many macromolecules. Details are given of the construction and manipulation of the apparatus. (JN)

A microcomputer-controlled system for instrument processing and billing for complex analytical instruments funded by multiple sources in the University of California at Berkeley's College of Chemistry is described and its potential applications in other administrative situations are outlined. (MSE)

Voltammetry is used as a model for teaching chemical instrumentation to chemistry undergraduates at the National University of Singapore. Lists six criteria used to select a successful teaching model and shows how voltammetry satisfies each criterion. (JN)

The basic principles, current techniques, instrumentation, and possible chemical applications of nuclear magnetic resonance (NMR) imaging are discussed. (JN)

The Nebraska Instrument Sharing Consortium (NISC) is a group of small colleges that have banded together to provide modern instrumentation to their students at an affordable price. Consortium activities are described, including how the instruments are moved between campuses. (JN)

Describes a lesson in a research methods class teaching undergraduate students instrument construction and interviewing techniques, using film viewing, discussion, and interviewing exercises. Student reactions were positive. (CK)

Discusses two applications of Laboratory Information Management Systems (LIMS) in the undergraduate laboratory. They are the coulometric titration of thiosulfate with electrogenerated triiodide ion and the atomic absorption determination of calcium using both analytical calibration curve and standard addition methods. (JN)

Provides an overview of Laboratory Information Management Systems (LIMS) and their implementation in undergraduate analytical laboratories. Basic components of a well-constructed LIMS system, hardware considerations, and software considerations are addressed. (JN)