Solidarity Forever: The Story of the Flint Sit-Down Strike and the Communist Party from the Perspective of the Rank and File Autoworkers

McCloud, Brandi Nicole

05 May 2012

The subject of this thesis is the Sit-Down Strike in Flint, Michigan in 1936-1937. The main purpose is to examine the story of the strike as told by the strikers themselves, to explore the role that Communists played in the strike along with how the workers responded the Communism and other political ideologies of the day. The final chapter then examines the many anti-Communist forces that surrounded the autoworkers before, during, and after the Sit-Down Strike, which may account for the strikers' reluctance to admit their affiliation with the Communists.

Sit-Down Strike

Communist Part and Labor

autoworkers

Arts and Humanities

History

Political History

Deformation in the Achilles Tendon when Running with Minimalistic Shoes : Review of Speckle Tracking Algorithm / Hälsenans deformation vid löpning i minimalistiska skor : Analys av speckle tracking-algoritm

Olsson, Matilda

January 2018

The main goal of the project was to compare how the Achilles tendon is affected while running with traditional shoes, minimalistic shoes and barefoot. Displacement and strain were calculated both for different shoes and for different foot strike patterns. The calculations were done with a speckle tracking algorithm and displacement was calculated for three different depths in the tendon: deep layer, mid layer and superficial layer. The goal was also to conduct this analysis after a review of the algorithm used. The review of the algorithm focused on the size of the region of interest, kernel size and frequency. Literature study showed that it is more common to use a smaller kernel size, but the same shape. The region of interest was chosen depending on the size of the tendon. Displacement and strain in the Achilles tendon was calculated for seven subjects and the result did not show any difference in amount of mean deformation due to different shoe types or foot strike patterns. It was a small sample group but the result indicated a difference in peak displacement between deep and superficial layer depending on different shoe types and foot strike patterns. The difference in peak displacement between deep and superficial layer was lowest when running barefoot, larger when running with minimalistic shoes and greatest when running with traditional shoes. This result was only achieved when running with rear foot strike pattern. When running with fore foot strike pattern the difference in peak displacement between layers did not change with different conditions. In all conditions the difference in peak displacement between the layers was greater when running with rear foot strike pattern than when running with front foot strike pattern. The deep layer displaced more than the superficial layer (p<0.01) for all conditions and foot strike patterns.

Speckle Tracking

Achilles Tendon

Deformation

Foot Strike Pattern

Minimalistic Shoes

Medical Engineering

Medicinteknik

A unified plasma-materials finite element model of lightning strike interaction with carbon fiber composite materials

Aider, Youssef

09 August 2019

This work is devoted to the computational modeling of a lightning strike electric arc discharge induced air plasma and the material response under the lightning strike impact. The simulation of the lightning arc plasma has been performed with Finite element analysis in COMSOL Multiphysics. The plasma is regarded as a continuous medium of a thermally and electrically conductive fluid. The electrode mediums, namely the cathode and anode, have also been included in the simulation in a unified manner, meaning that the plasma and electrode domains are simulated concurrently in one numerical model. The aim is to predict the lightning current density, and the heat flux impinged into the anode's material surface, as well as the lightning arc expansion and pressure and velocity of the plasma flow. Our predictions have been validated by the existing experimental data and other numerical predictions reported by former authors.

Plasma-material interaction

Lightning strike

Air plasma

Carbon fiber epoxy composite

Finite element analysis

ORIGIN AND STRUCTURE OF THE POVERTY HILLS, OWENS VALLEY FAULT ZONE, OWENS VALLEY, CALIFORNIA

Taylor, Tatia R.

21 May 2002

No description available.

Geology

Strike-Slip Fault

Transpression

Poverty Hills

Owens Valley

Structural Geology

Eastern California Shear Zone

Tectonics

MODELING, SIMULATION AND EXPERIMENT FOR THE DEVELOPMENT OF INFRASOUND BIRD STRIKE PREVENTION SYSTEM

Maduri, Vaishnavi

15 September 2015

No description available.

Engineering

Experiments

Logic

Systems Design

Community Unionism: The Toledo Auto-Lite Strike of 1934

Delaney, Nathan D.

14 June 2010

No description available.

American History

Toledo Auto-Lite Strike of 1934

community unionism

worker community

STUDY ON BEHAVIOR OF BURIED PIPELINES SUBJECTED TO EARTHQUAKE FAULT MOVEMENT BY ANALYTICAL NUMERICAL AND EXPERIMENTAL APPROACHES / 解析的・数値的・実験的アプローチに基づいた断層変位による地下埋設管の挙動に関する研究

FARZAD, TALEBI

23 September 2020

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第22755号 / 工博第4754号 / 新制||工||1743(附属図書館) / 京都大学大学院工学研究科都市社会工学専攻 / (主査)教授 清野 純史, 教授 高橋 良和, 准教授 古川 愛子 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Buried pipeline

Soil-pipe interaction

FEM

analytical solution

Fault crossing

strike-slip

Earthquake

500

The Ethical Application of Force-Feeding: a Closer Look at Medical Policy Involving the Treatment of Hunger-Striking POWs and Detainees

Cohen, Jared

January 2016

Hunger strikes are used as a method of protest to call attention to grievances or political positions and galvanize support for a cause. Historical examples from pre-Christian Europe through Guantanamo Bay have demonstrated various motives, interventions, and outcomes to this unique form of protest. Starvation causes life-threatening damage to the body, and to intervene on an unwilling subject involves invasive medical procedures. As scholars have debated how to approach this medical-ethical dilemma, a tug-of-war exists between autonomy, beneficence, and social justice with regard to the rights of prisoners of war (POWs) and detainees. International documents, legislation, and case law demonstrate vast support for and place precedence on the prisoners right to make their own autonomous, informed medical decisions, and many in the international community lean towards abstaining from intervention on hunger strikes on the basis of patient autonomy. However, there are notable arguments both for and against force-feeding that have been well documented. Despite the vast international dialogue, there is a key component that seems to have been forgotten—the environment within which the prisoner or detainee resides is immersed with coercive and manipulative activity and interrogation on a regular basis. This environment may impede the ability for the POW or detainee to make an autonomous decision and then leads to the refusal of life-saving, medical intervention on the basis of a decision that is markedly coerced or manipulated. It is therefore noted that a different lens must be used to analyze hunger strike situations for this specific population. / Urban Bioethics

Medical Ethics

Political Science

Detainee

Hunger Strike

Medical Ethics

Prisoner of War

Evolution of Off-Fault Deformation along Analog Strike-Slip Faults

Hatem, Alexandra E

07 November 2014

Strike-slip faults evolve to accommodate more fault slip, resulting in less off-fault deformation. In analog experiments, the measured fault slip to off-fault deformation ratios are similar to those measured in crustal strike-slip systems, such as the San Andreas fault system. Established planar faults have the largest fault slip to off-fault deformation ratio of ~0.98. In systems without a pre-existing fault surface, crustal thickness and basal detachment conditions affect shear zone width and roughness. However, once the applied plate displacement is 1-2 times the crustal thickness, partitioning of deformation between fault slip and off-fault distributed shear is >0.90, regardless of the basal boundary conditions. In addition, at any moment during the evolution of the analog fault system, the ratio of fault slip to off-fault deformation is larger than the cumulative ratio. We also find that the upward and lateral propagation of faults as an active shear zone developing early in the experiments has greater impact on the system’s strike-slip efficiency than later interaction between non-collinear fault segments. For bends with stepover distance of twice the crustal thickness, the fault slip to off-fault deformation ratio increases up to ~0.80-0.90, after applied plate displacement exceeds twice the crustal thickness. Propagation of new oblique-slip faults around sharp restraining bends reduces the overall off-fault deformation within the fault system. In contrast, fault segments within gentle restraining bends continue to slip and the propagation of new oblique-slip faults have less effect on the system’s efficiency than for sharp restraining bends.

analog modeling

structural geology

fault initiation

restraining bends

strike-slip faults

Geology

Effects of Time Pressure and Mental Workload on Physiological Risk Factors for Upper Extremity Musculoskeletal Disorders While Typing

Hughes, Laura E.

30 July 2004

Work-related musculoskeletal disorders (WMSDs) are a major source of lost productivity and revenue in the workplace and disability in workers. There is strong evidence for a relationship between physical risk factors, such as repetitive motions and excessive force, and the development of WMSDs; yet there are unexplained discrepancies in determining which workers are more at risk. Researchers hypothesize that non-physical factors in the workplace, or psychosocial factors, may contribute to the development of WMSDs. The following study examined the effects of two psychosocial factors, mental workload and time pressure, on perceived workload and physiological reactions of the lower arm and wrist during typing activity by measuring muscle activation patterns, wrist posture and movement, key strike forces, and subjective assessments of overall workload. The results indicate that increases in time pressure lead to increases in lower arm muscle activation, key strike forces, and wrist deviations. Key strike forces may increase with higher mental workload levels, but other effects of mental workload were not clear. Perceived overall workload (time load, mental effort load, and stress load) increased with mental workload and time pressure, and typing performance decreased. The evidence from this study suggests that these psychosocial factors (mental workload and time pressure) mediate physical risk factors to increase risk for WMSD development in the upper extremities. The results illustrate the need for those designing jobs and work tasks to consider both physical and psychosocial aspects of the working environment to prevent injuries in employees. / Master of Science

subjective workload assessment

wrist posture

key strike force

electromyography

psychosocial factors