Notes upon trees and shrubs adapted to central Illinois : with especial reference to their value in ornamental planting

Thesis (B.S)--University of Illinois, 1900.Typescript.Includes bibliographical references

Activities for Materials and Processes Technology

The problem of this study was to establish laboratory and classroom activities that deal particularly with the materials and processes technology area of Industrial Arts. These activities will reinforce instruction and give the student personal experience using the materials and processes of modern industrial technology

Matrix bandwidth and profile reduction

This program, REDUCE, reduces the bandwidth and profile of sparse symmetric matrices, using row and corresponding column permutations. It is a realization of the algorithm described by the authors elsewhere. It was extensively tested and compared with several other programs and was found to be considerably faster than the others, superior for bandwidth reduction and as satisfactory as any other for profile reduction

Covariance analysis of the airborne laser ranging system

The requirements and limitations of employing an airborne laser ranging system for detecting crustal shifts of the Earth within centimeters over a region of approximately 200 by 400 km are presented. The system consists of an aircraft which flies over a grid of ground deployed retroreflectors, making six passes over the grid at two different altitudes. The retroreflector baseline errors are assumed to result from measurement noise, a priori errors on the aircraft and retroreflector positions, tropospheric refraction, and sensor biases

Stochastic density functional theory

Linear-scaling implementations of density functional theory (DFT) reach their intended efficiency regime only when applied to systems having a physical size larger than the range of their Kohn-Sham density matrix (DM). This causes a problem since many types of large systems of interest have a rather broad DM range and are therefore not amenable to analysis using DFT methods. For this reason, the recently proposed stochastic DFT (sDFT), avoiding exhaustive DM evaluations, is emerging as an attractive alternative linear-scaling approach. This review develops a general formulation of sDFT in terms of a (non)orthogonal basis representation and offers an analysis of the statistical errors (SEs) involved in the calculation. Using a new Gaussian-type basis-set implementation of sDFT, applied to water clusters and silicon nanocrystals, it demonstrates and explains how the standard deviation and the bias depend on the sampling rate and the system size in various types of calculations. We also develop basis-set embedded-fragments theory, demonstrating its utility for reducing the SEs for energy, density of states and nuclear force calculations. Finally, we discuss the algorithmic complexity of sDFT, showing it has CPU wall-time linear-scaling. The method parallelizes well over distributed processors with good scalability and therefore may find use in the upcoming exascale computing architectures

Information-theoretic determination of ponderomotive forces

From the equilibrium condition $\delta S=0$ applied to an isolated thermodynamic system of electrically charged particles and the fundamental equation of thermodynamics ($dU = T dS-(\mathbf{f}\cdot d\mathbf{r})$) subject to a new procedure, it is obtained the Lorentz's force together with non-inertial terms of mechanical nature. Other well known ponderomotive forces, like the Stern-Gerlach's force and a force term related to the Einstein-de Haas's effect are also obtained. In addition, a new force term appears, possibly related to a change in weight when a system of charged particles is accelerated.Comment: 10 page

Умови розвитку методологічної культури майбутнього вчителя у педагогіці Василя Сухомлинського

У статті висвітлюються теоретичні засади та методичні аспекти розвитку методологічної культури майбутнього вчителя у педагогічній спадщині Василя Сухомлинського. Автор акцентує увагу на дослідженні інтерпертації видатним педагогом змісту та умов формування методологічної культури як важливої характеристики професіоналізму вчителя

Expression quantitative trait loci in human brain tissues

To what extent genetic variability influences gene expression in human primary tissues is a critical question in molecular genetics. Work investigating this phenomenon is not only interesting biologically, but also has the potential to provide mechanistic insight into traits, including disease. The past decade has seen tremendous progress in this field, and this thesis includes a description of work that spanned from the relatively early stages of this type of work, to current, more refined efforts. This work sought to ask three questions: first, are eQTL detectable in brain tissues using whole genome methods; second, are eQTL measurably different in different parts of the brain; and third, does the investigation of eQTL in a particular neuronal cell type offer significant advantages over similar studies in tissue with a mixed cellular composition. In the first part of this work, I present a pilot study aimed at assessing the feasibility of eQTL detection in brain tissue. This study showed that the use of genome wide genotyping and expression arrays revealed a number of significant eQTL, and that in general, when genetic variability was associated with expression, the genetic locus and the expressed transcript were physically close. This work was then expanded to assess eQTL in multiple brain regions, with an attempt to assess whether eQTL were measurably different between distinct brain regions. In this work, tissue from cerebral frontal cortex, cerebral temporal cortex, caudal pons, and cerebellum was used. The analysis showed that there are region-specific eQTL, but that many of the strongest eQTL were present in multiple tissues. Lastly, I show using data from laser capture microdissected Purkinje cells that additional cell-type specific eQTL may be found that are not revealed when performing eQTL in heterogeneous tissue containing this cell type. In summary this work initially revealed the feasibility of eQTL work in human brain, showed that eQTL were measurably different, but generally similar across varied brain tissues, and showed that there are likely several advantages in pursuing single cell type work in tandem with whole tissue efforts