Stellar prominences and coronal magnetic fields

Tavarela da Silva Ferreira, Joao Miguel

January 1996

No description available.

523.01

Theoretical Study on Chemical Structures and Stability of Molecules in Metallic Junctions

Hu, Wei

January 2016

In this thesis, we focus on the structural identification of the interface using surface enhanced Raman spectroscopy (SERS) and inelastic electron tunnelling scattering (IETS). Two different molecular junctions, namely gold/ trans-1,2-bis (4-pyridyl) ethylene/gold junction and gold/4,4'-bipyridine/gold junctions in various conditions were studied and the corresponding configurations were determined. The enhancement in SERS was also studied by employing the time-dependent density functional theory. Furthermore, we studied some properties of the interface, such as the stability of the adsorbates and charge transfer properties of molecular junctions. The decrease in the stability of molecules was found when adsorbed on metallic surface and trapped in metallic junctions. Our studies explained several puzzles and by rational design, more stable molecular devices were obtained.

SERS

IETS

Interface

Chemical Stability

Finite element method in hydrodynamic stability

李毓湘, Li, Yok-sheung.

January 1979

published_or_final_version / Mechanical Engineering / Doctoral / Doctor of Philosophy

Hydrodynamics - Stability.

Finite element method.

Understanding dynamic balance during walking using whole-body angular momentum

Vistamehr, Arian

18 September 2014

Maintaining dynamic balance during walking is a major challenge in many patient populations including older adults and post-stroke hemiparetic subjects. To maintain dynamic balance, whole-body angular-momentum has to be regulated through proper foot placement and generation of the ground-reaction-forces. Thus, the overall goal of this research was to understand the mechanisms and adaptations used to maintain dynamic balance during walking by analyzing whole-body angular-momentum, foot placement and ground-reaction-forces in older adults and post-stroke subjects. The analysis of healthy older adults showed that they regulated their frontal-plane angular-momentum poorly compared to the younger adults. This was mainly related to the increased step width, which when combined with the dominant vertical ground-reaction-force, created a higher destabilizing external moment during single-leg stance. The results also suggested that exercise programs targeting appropriate foot placement and lower extremity muscle strengthening, particularly of the ankle plantarflexors and hip abductors, may enhance balance control in older adults. During post-stroke hemiparetic walking, ankle-foot-orthosis and locomotor therapy are used in an effort to improve the overall mobility. However, the analyses of healthy subjects walking with and without a solid ankle-foot-orthosis showed that they can restrict ankle plantarflexor output and limit the successful regulation of angular-momentum and generation of forward propulsion. Thus, the prescription of solid ankle-foot-orthosis should be carefully considered. The analysis of hemiparetic subjects walking pre- and post-therapy showed that locomotor training did not improve dynamic balance. However, for those subjects who achieved a clinically meaningful improvement in their self-selected walking speed, their change in speed was correlated with improved dynamic balance. Also, improved balance was associated with narrower mediolateral paretic foot placement, longer anterior nonparetic steps, higher braking ground-reaction-force peaks and impulses, higher (lower) propulsive ground-reaction-force peaks and impulses from the paretic (nonparetic) leg, and higher vertical ground-reaction-force impulses from both legs during the late stance. Further, simulation analyses of hemiparetic walking highlighted the importance of ankle plantarflexors, knee extensors and hip abductors in maintaining balance and revealed the existence of compensatory mechanisms due to the paretic leg muscle weakness. Collectively, these studies showed the importance of ankle plantarflexors and hip abductors in maintaining dynamic balance. / text

Stability

Biomechanics

Gait

Stroke

Elderly

Quantum mechanical simulation of the mechanical behaviour and metallic bonding of defective aluminium

Deyirmenjian, Vatche Berj

January 1994

No description available.

530.41

Continuum Theory; Stability of solids

The structural stability of reclaimed marsh soils

Ahmed, F. B.

January 1987

No description available.

631.4

Soil stability/gypsum use

Studies on the NADH oxidase from the thermophiles Sulfolobus acidcaldarius and solfataricus

Masullo, Mariorosario

January 1996

No description available.

572

The determination of medium term macroeconometric policy rules in a dynamic stochastic economic and monetary union

Khajeh-Hosseiny, Hosein

January 1995

No description available.

330

Macro-economic stability; EMU

Genetic analysis of the XerCD site-specific recombinase

Viney, Ian Stuart

January 1995

No description available.

572.8

Plasmid stability; Cell division

Multivariable constrained Model Predictive Control

Heise, Sharon Ann

January 1994

No description available.

629.8