5,342 research outputs found
A suspended microchannel with integrated temperature sensors for high-pressure flow studies
A freestanding microchannel, with integrated temperature sensors, has been developed for high-pressure flow studies. These microchannels are approximately 20ÎŒm x 2ÎŒm x 4400ÎŒm, and are suspended above 80 ÎŒm deep cavities, bulk micromachined using BrF3 dry etch. The calibration of the lightly boron-doped thermistor-type sensors shows that the resistance sensitivity of these integrated sensors is parabolic with respect to temperature and linear with respect to pressure. Volumetric flow rates of N2 in the microchannel were measured at inlet pressures up to 578 psig. The discrepancy between the data and theory results from the flow acceleration in a channel, the non-parabolic velocity profile, and the bulging of the channel. Bulging effects were evaluated by using incompressible water flow measurements, which also measures 1.045x10^-3N-s/m^2 for the viscosity of DI water. The temperature data from sensors on the channel shows the heating of the channel due to the friction generated by the high-pressure flow inside
Notch effects in tensile behavior of AM60 magnesium alloys
The deformation and failure behavior of an AM60 magnesium alloy was investigated using tensile test on circumferentially notched specimens with different notch radii. The strain and stress triaxiality corresponding to the failure point were evaluated using both analytical and finite element analyses. Combining with systematical observations of the fracture surfaces, it is concluded that deformation and failure of AM60 magnesium alloy are notch (constraint) sensitive. The failure mechanisms change from ductile tearing to quasi cleavage with the increase of constraint
Micro heat exchanger by using MEMS impinging jets
A micro impinging-jet heat exchanger is presented here. Heat transfer is studied for single jet, slot arrays and jet arrays. In order to facilitate micro heat transfer measurements with these devices, a MEMS sensor chip, which has an 8 x 8 temperature-sensor array on one side, and an integrated heater on the other side has been designed and fabricated. This sensor chip allows 2-D surface temperature
measurement with various jets impinging on it. It is
found that micro impinging jets can be highly efficient when compared to existing macro impinging-jet microelectronics packages such as IBM 4381. For example, using a single nozzle jet (500-Όm diameter driven by 5 psig pressure), the sensor chip (2 x 2 cm^2) temperature can be cooled down from 70 to 33°C. The cooling becomes more efficient when
nozzle arrays (4x5 over 1 cm^2 area) are used under
the same driving pressure. Interestingly, although
higher driving pressure gives better cooling (lower
surface temperature), the cooling efficiency, defined
as h/0.5pv^2, is actually higher for lower driving
pressure
Fungsi Kode dalam Program Acara âBeleterâ Tvri Kalbar
Penelitian ini bertujuan untuk mendeskripsikan fungsi kode serta faktor yang melatarbelakangi pemilihan kode kebahasaan dalam program acara âBeleterâ TVRI Kalbar. Metode yang digunakan dalam penelitian ini yaitu metode deskriptif dan bentuk penelitian kualitatif. Teknik dalam pengumpulan data ini yaitu wawancara, studi dokumentasi atau dokumen dan teknik simak, sedangkan alat pengumpul data dalam penelitian ini terdiri dari kartu pencatat data, tape recorder, dan lembar pedoman wawancara. Teknik analisa data menggunakan model Miles dan Huberman yaitu pertama, pengumpulan data, kedua, reduksi data, ketiga, penyajian data, dan keempat, penarikan simpulan. Hasil penelitian berdasarkan Fungsi kode yang terdapat pada penelitian yaitu terdapat lima fungsi, fungsi emotif, fungsi konatif, fungsi referensial, fungsi puitik dan fungsi fatik. Faktor yang melatarbelakangi pemilihan kode kebahasaan yaitu hal yang sudah direncanakan, pembicara atau penutur, pendengar atau lawan tutur dan Perubahan situasi karena hadirnya orang ketiga
Three essays on the time series of returns
This dissertation consists of three essays on the time series of asset returns. The first essay in Chapter 1--Time-Varying Drivers of Stock Prices--provides novel evidence of the time-varying roles of subjective expectations in explaining stock price variations across the market and 30 industry portfolios monthly from 1976 to 2020. Cash flow expectations matter more under financial uncertainty and recessions, especially among the hardest-hit industries such as Telecommunications during the Dot-com Bubble, Financials during the Great Recession, and Healthcare during the Covid-19 pandemic. Conversely, discount rates explain more price variations during expansionary periods. Finally, inflation expectations, while accounting for 60 percent of price fluctuations in the high inflationary environment before 2000, play a negligible role thereafter. In the second essay in Chapter 2--Investor Sentiment and Asset Returns: Actions Speak Louder than Words--I analyze daily predictability of investor sentiment across four major asset classes and compares sentiment measures based on news and social media with those based on trade information. For the majority of assets, trade-based sentiment measures outperform their text-based equivalents for both in-sample and out-of-sample predictions. This outperformance is particularly noticeable in long-term forecasts. However, real-time mean-variance investors can only achieve economic gains using Bitcoin trade sentiment, suggesting the challenge of transforming sentiment into daily profitable trading strategies. In the last essay in Chapter 3--War Discourse and Disaster Premia: 160 Years of Evidence from Stock and Bond Markets--using a semi-supervised topic model on 7,000,000 New York Times articles spanning 160 years, I test whether topics of media discourse predict future stock and bond market returns to test rational and behavioral hypotheses about market valuation of disaster risk. Focusing on media discourse addresses the challenge of sample size even when major disasters are rare. Our methodology avoids look-ahead bias and addresses semantic shifts. War discourse positively predicts market returns, with an out-of-sample R2 of 1.35 percent, and negatively predicts returns on short-term government and investment-grade corporate bonds. The predictive power of war discourse increases in more recent time periods.Includes bibliographical references
Distinct roles of delta- and theta-band neural tracking for sharpening and predictive coding of multi-level speech features during spoken language processing
The brain tracks and encodes multiâlevel speech features during spoken language processing. It is evident that this speech tracking is dominant at low frequencies (<8âHz) including delta and theta bands. Recent research has demonstrated distinctions between deltaâ and thetaâband tracking but has not elucidated how they differentially encode speech across linguistic levels. Here, we hypothesised that deltaâband tracking encodes prediction errors (enhanced processing of unexpected features) while thetaâband tracking encodes neural sharpening (enhanced processing of expected features) when people perceive speech with different linguistic contents. EEG responses were recorded when normalâhearing participants attended to continuous auditory stimuli that contained different phonological/morphological and semantic contents: (1) realâwords, (2) pseudoâwords and (3) timeâreversed speech. We employed multivariate temporal response functions to measure EEG reconstruction accuracies in response to acoustic (spectrogram), phonetic and phonemic features with the partialling procedure that singles out unique contributions of individual features. We found higher deltaâband accuracies for pseudoâwords than realâwords and timeâreversed speech, especially during encoding of phonetic features. Notably, individual timeâlag analyses showed that significantly higher accuracies for pseudoâwords than realâwords started at early processing stages for phonetic encoding (<100âms postâfeature) and later stages for acoustic and phonemic encoding (>200 and 400âms postâfeature, respectively). Thetaâband accuracies, on the other hand, were higher when stimuli had richer linguistic content (realâwords > pseudoâwords > timeâreversed speech). Such effects also started at early stages (<100âms postâfeature) during encoding of all individual features or when all features were combined. We argue these results indicate that deltaâband tracking may play a role in predictive coding leading to greater tracking of pseudoâwords due to the presence of unexpected/unpredicted semantic information, while thetaâband tracking encodes sharpened signals caused by more expected phonological/morphological and semantic contents. Early presence of these effects reflects rapid computations of sharpening and prediction errors. Moreover, by measuring changes in EEG alpha power, we did not find evidence that the observed effects can be solitarily explained by attentional demands or listening efforts. Finally, we used directed information analyses to illustrate feedforward and feedback information transfers between prediction errors and sharpening across linguistic levels, showcasing how our results fit with the hierarchical Predictive Coding framework. Together, we suggest the distinct roles of delta and theta neural tracking for sharpening and predictive coding of multiâlevel speech features during spoken language processing
Experimental Study On Z-Pinned DCB Mode I Delamination
An experimental investigation on mode I delamination of z-pinned double-cantilever-beams (DCB) and corresponding pin pullout behaviour is presented. The effects of loading rate on delamination crack opening and z-pin bridging mechanisms is reported. Optical micrographs of z-pins after pullout show that a higher loading rate causes more splitting damage in the pins. Comparison of fracture load shows that the fracture load rises with increasing loading rate. Z-pin pullout tests were also conducted to give a detailed description of z-pin bridging mechanisms
A Self-Consistent Model For Directional Dependence Of Crack Growth
Fracture growth is considered as the competition between cleavage and dislocation self-organization in elastic-plastic solids. A self-consistent model is proposed to bridge the responses at relevant length scales, an elastic enclave in the immediate vicinity of crack tip, an array of disclination dipoles and macroscopic plastic deformation. The directional dependence of crack growth is studied. In the continuum limit, the flow stress is expressed by a spatial coupling in terms of a second-order gradient of the rotation strength of disclination dipoles. An estimate of the core size and the crack-tip shielding ratio is given by identification of the macroscopic plastic fields, the elastic field and the constitutive flow stress from the micromechanics consideration, on the boundary of elastic core. Strong dependence of apparent fracture toughness on the intrinsic surface energy and the ductile-to-brittle transition are examined
MULTIPLE-INTELLIGENCE-BASED LEARNING INFLUENCE ON DEVELOPING CREATIVE THINKING IN SOCIAL STUDIES AMONG NINTH-GRADE STUDENTS IN ABU DHABI, UNITED ARAB EMIRATES
This study aimed to examine the influence of multiple intelligence-based learning on the development of creative thinking for ninth-grade students in Abu Dhabi private schools. This study used a quasi-experimental design. Also, this study used a control group (30 students) and an experimental group (30 students) of ninth grade students from private schools in Abu Dhabi. The two groups were selected randomly. The instruments used were pre and post-tests in creative thinking skills. Data was analysed using descriptive statistics, ANCOVA and t-test. The findings revealed a significant difference in the creative thinking post-test mean score after controlling for the effect of pre-test between both groups. The experimental group (M = 82.97, SD = 9.98) exceeded the control group (M = 61.20, SD = 15.85) after controlling the effect of the pre-test of creative thinking on both groups, F (1, 57) = 38.31, p = .000. The t-test revealed that there was a significant effect for gender in the elaboration skill (post-test), t (28) = -2.12, p = .043, with females (M = 22.50, SD = 1.95) receiving higher scores than males (M = 20.25, SD = 3.53). In conclusion, the findings reveal the influence of multiple intelligence-based learning on the studentsâ creative thinking skills. â Article visualizations
- âŠ