1,713 research outputs found
DC motor proportional control system for orthotic devices
Multi-channel proportional control system for operation of dc motors for use with externally-powered orthotic arm braces is described. Components of circuitry and principles of operation are described. Schematic diagram of control circuit is provided
Fabrication of thin film composite poly(amide)-carbon-nanotube supported membranes for enhanced performance in osmotically driven desalination systems
The search for lower energy consumption desalination systems has been driving research in the past decade towards the investigation of osmotically driven membrane processes, such as forward osmosis (FO) or osmotic distillation (OD). Despite similarities with reverse osmosis (RO) membranes, thin film composite (TFC) for FO membranes require careful design to reduce salt concentration polarization formation within the large pores composing the supporting layer. An investigation of a novel, highly stable, robust support made solely of carbon nanotubes (CNTs), which could find applications in both RO and FO was undertaken. TFC membranes were fabricated by interfacially polymerizing for the first time a dense poly(amide) (PA) layer on self-supporting bucky-papers (BPs) made of hydroxyl-functionalized entangled CNTs. These hydrophilic supports exhibited low contact angle with water (90%), making it a promising material when compared with poly(sulfone) (PSf), the traditional polymer used to fabricate TFC membrane supports in RO. In addition, the impact of the support hydrophilicity on the stability of the interfacially polymerized film and on water adsorption was investigated by oxygen-plasma treating various potential support materials, exhibiting similar geometrical properties. The morphology and salt diffusion of both CNT BP and PSf supports were investigated, and the novel BP–PA composite membranes were found to be superior to commercially available TFC membranes
History and sensitivity comparison of two standard whole-sediment toxicity tests with crustaceans : the amphipod Hyalella azteca and the ostracod Heterocypris incongruens microbiotest
The review first details the development of the test procedures with Hyalella azteca which historically emerged as one of the recommended test species for whole-sediment assays and its gradual standardization and endorsement by national and international organizations. The sensitivity and precision of the H. azteca test for application on chemicals and on real world sediments is discussed. The review subsequently addresses the development of the whole sediment microbiotest with the ostracod crustacean Heterocypris incongruens with larvae of this test species hatched from dormant eggs (cysts), rendering this assay stock culture/maintenance free. The application of the 6-day ostracod microbiotest on sediments in Canada and in Belgium is discussed, as well as its endorsement by the ISO subsequent to an extensive international inter-laboratory ring test. The sensitivity of the amphipod and ostracod tests is compared by data from studies in which both assays were applied in parallel. A comparison of more than 1000 ostracod/amphipod data pairs of a 12-year river sediment monitoring study in Flanders/Belgium confirmed that both whole-sediment assays have a similar sensitivity and that the 6-day ostracod microbiotest is a valuable and cost-effective alternative to the 10-14 day amphipod test for evaluation of the toxic hazard of polluted sediments
Candidate molecular ions for an electron electric dipole moment experiment
This paper is a theoretical work in support of a newly proposed experiment
(R. Stutz and E. Cornell, Bull. Am. Soc. Phys. 89, 76 2004) that promises
greater sensitivity to measurements of the electron's electric dipole moment
(EDM) based on the trapping of molecular ions. Such an experiment requires the
choice of a suitable molecule that is both experimentally feasible and
possesses an expectation of a reasonable EDM signal. We find that the molecular
ions PtH+, HfH+, and HfF+ are suitable candidates in their low-lying triplet
Delta states. In particular, we anticipate that the effective electric fields
generated inside these molecules are approximately of 73 GV/cm, -17 GV/cm, and
-18 GV/cm respectively. As a byproduct of this discussion, we also explain how
to make estimates of the size of the effective electric field acting in a
molecule, using commercially available, nonrelativistic molecular structure
software.Comment: 25 pages, 3 figures, submitted to Physical Review
GREATER SKELETAL CONTRIBUTIONS TO LEG STIFFNESS IN HIGHCOMPARED TO LOW-ARCHED ATHLETES DURING RUNNING AND LANDING MOVEMENTS.
The contributions of skeletal and muscular structures to stiffness may underlie the distinct injury patterns observed in high- (HA) and low-arched (LA) athletes. This study compared skeletal and muscular contributions to leg stiffness in HA and LA athletes during running and landing. Ten HA and 10 LA female athletes performed five over ground running trials and five step off landing trials. Leg stiffness, and skeletal and muscular contributions to leg stiffness were calculated using Visual 3D and MatLab. HA athletes had greater leg stiffness (p=0.010) and skeletal stiffness (p=0.016) in running. During landing, HA had greater leg stiffness (p=0.015) and skeletal stiffness (p\u3c0.001) while LA athletes had greater muscular stiffness (p=0.025). These findings demonstrate that HA athletes place a greater reliance upon skeletal structures for load attenuation during running and landing which may underlie their distinct injury patterns
Optical investigation of thermoelectric topological crystalline insulator PbSnSe
PbSnSe is a novel alloy of two promising thermoelectric
materials PbSe and SnSe that exhibits a temperature dependent band inversion
below 300 K. Recent work has shown that this band inversion also coincides with
a trivial to nontrivial topological phase transition. To understand how the
properties critical to thermoelectric efficiency are affected by the band
inversion, we measured the broadband optical response of
PbSnSe as a function of temperature. We find clear optical
evidence of the band inversion at K, and use the extended Drude
model to accurately determine a dependence of the bulk carrier
lifetime, associated with electron-acoustic phonon scattering. Due to the high
bulk carrier doping level, no discriminating signatures of the topological
surface states are found, although their presence cannot be excluded from our
data.Comment: 11 pages, 6 figure
Second-Hand Stress: Neurobiological Evidence for a Human Alarm Pheromone
Alarm pheromones are airborne chemical signals, released by an individual into the environment, which transmit warning of danger to conspecifics via olfaction. Using fMRI, we provide the first neurobiological evidence for a human alarm pheromone. Individuals showed activation of the amygdala in response to sweat produced by others during emotional stress, with exercise sweat as a control; behavioral data suggest facilitated evaluation of ambiguous threat
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