2,568 research outputs found
Creative Writing In Alcohol, Tobacco, And Other Drug Education
Health educators in elementary and secondary schools should seek collaborations with teachers of other subjects to enhance health education curriculum. The strategy described in this article details a potential collaboration between health education and language arts units. The activity enhances both drug education knowledge gains and creative writing skills among junior high/middle school students
Alcohol Consumption And Policy Perception Among College Freshman Athletes
College athletes consume more alcohol and experience more alcohol-related consequences than non-athlete populations. Freshman athletes are at an even higher risk for alcohol-related problems as they learn to deal with the demands of college athletics. Researchers have suggested that the development of appropriate alcohol policy may be a useful strategy to reduce alcohol problems among athletes; however, study results are inconclusive. The purpose of this study was to examine the impact of team, athletic department, and university policy on college athletesâ alcohol consumption. A survey of 263 college freshman athletes from two NCAA universities measured alcohol consumption and perception of alcohol policies at the university, athletic department, and team levels. Results indicated that athletes who abstain from alcohol were more likely to believe in strong enforcement and the desire for greater policy restrictions at the university, athletic department, and team levels. Results also revealed differences in alcohol consumption patterns between team vs. individual sports. These findings suggest a need to develop extensive, strictly enforced alcohol policies to influence alcohol behavior of college freshman athletes.
Automatic Ordering of Program Units for Execution
A program written in today\u27s sequential programming languages must be written according to a rule which states that source instructions must be written in their exact order of execution. A better rule would be to let the programmer write the instructions in any order he wants- - then let a program figure out the proper order of execution. Such a system applies not only to individual instructions in a procedure or program, but to procedures in a program and to programs in a job stream.
This paper and its associated automatic ordering program introduce a method by which instructions can be written in any order. The ordering program analyzes the source instructions and determines their order of execution. Semaphores are utilized by the ordering program to control the order of execution of the source instructions. Were this system to be used in conjunction with a compiler, the user of such a compiler would no longer be forced to worry as much about the order of his source instructions. Thus, the programmer would be able to concentrate more on the what of programming rather than so much on the how of programming. The programmer, then, would be writing programs at a higher level than is possible with current higher level languages
The effects of a four week primary and secondary speed training protocol on 40 yard sprint times in female college soccer players
Improvements in running speed have been attributed to both primary and secondary speed training techniques. Primary techniques involve attention to running mechanics and form, and secondary techniques involve resisted or assisted sprinting. The purpose of this study was to assess the effect of combining both primary and secondary speed training techniques on 40 yard sprint speed in young soccer players. To compare the effects of pre- and post- four week speed training protocol on 40-yard sprint times in female collegiate soccer players. Twelve (19.5+1.5y) normal weight (BMI: 22.7+3.4 kg·m-2) and body composition (BF: 27.75+3.8%) active white female collegiate soccer players participated in a four week training protocol which implemented primary and secondary speed training methods. A standard running mechanics program was implemented two times per week and was immediately followed by resisted or assisted sprinting. Sled towing was chosen for resisted sprinting, while elastic towing devices were chosen for assisted sprinting. Forty yard sprint times were assessed pre and post protocol. Statistical analysis was conducted using SPSS. A paired samples t-test showed the four week speed training protocol elicited statistically significant reductions in 40 yard sprint times (p<0.001). The average sprint time decreased by 0.248 seconds (pre=5.463+0.066 vs post=5.215+0.053). A four week speed training protocol of primary and secondary techniques may play a significant role in reducing 40 yard sprint times in college female soccer athletes. Values are presented as (mean+SEM)
College Studentsâ Sense Of Cycling Capability Deters Helmet Use: Implications For Safety Helmet Ordinances
Proponents frequently cite increased injury protection as a reason for supporting bicycle helmet ordinances; yet, many cyclists oppose such policies. In this study, six focus groups of college students discussed cycling behaviors and attitudes toward using bicycle safety helmets, and perceptions of the local helmet ordinance. The usual concerns were voiced such as âinconvenienceâ and âhelmet hairâ. Participants reported very high confidence in their cycling ability and their ability to avoid a crash which might require a helmet. They failed to take into account external factors or the actions of others which may increase risk for injury. They also did not understand how health insurance spreads the financial risk for traumatic events. These findings have implications for designing education campaigns to promote college student health, as well as initiatives for helmet ordinance advocacy.
Predicting Residential Air Exchange Rates from Questionnaires and Meteorology: Model Evaluation in Central North Carolina
A critical aspect of air pollution exposure models is the estimation of the air exchange rate (AER) of individual homes, where people spend most of their time. The AER, which is the airflow into and out of a building, is a primary mechanism for entry of outdoor air pollutants and removal of indoor source emissions. The mechanistic Lawrence Berkeley Laboratory (LBL) AER model was linked to a leakage area model to predict AER from questionnaires and meteorology. The LBL model was also extended to include natural ventilation (LBLX). Using literature-reported parameter values, AER predictions from LBL and LBLX models were compared to data from 642 daily AER measurements across 31 detached homes in central North Carolina, with corresponding questionnaires and meteorological observations. Data was collected on seven consecutive days during each of four consecutive seasons. For the individual model-predicted and measured AER, the median absolute difference was 43% (0.17 hâ1) and 40% (0.17 hâ1) for the LBL and LBLX models, respectively. Additionally, a literature-reported empirical scale factor (SF) AER model was evaluated, which showed a median absolute difference of 50% (0.25 hâ1). The capability of the LBL, LBLX, and SF models could help reduce the AER uncertainty in air pollution exposure models used to develop exposure metrics for health studies
Economic Potential of Greenhouse Gas Emission Reductions: Comparative Role for Soil Sequestration in Agriculture and Forestry
We use the Agricultural Sector Model to analyze the economic potential of soil carbon sequestration as one of several agricultural greenhouse gas emission mitigation strategies, including afforestation. For low incentives on carbon emission savings, agricultural soil carbon sequestration is the most cost-efficient strategy. As incentive levels increase above $50 per ton of carbon equivalent, afforestation and biofuel production become the key strategies, while the role of soil carbon diminishes. If saturating sinks are discounted based on their net present value, the competitive economic equilibrium among agricultural mitigation strategies shifts away from soil carbon sequestration and afforestation and toward more biofuel production. Regardless of the discounting assumption and the carbon savings incentive level, the economic potential of soil carbon sequestration never attains its technical potential as estimated by soil scientists. The study also estimates the impacts of agricultural mitigation policies on welfare, prices, production, and input use in the traditional food and fiber sector and the effects of emission leakage from unregulated agricultural sources
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Methods for Objective and Subjective Evaluation of Zero-Client Computing
Zero clients are hardware-based devices without a central processing unit (CPU) that deliver virtual desktops (VDs) from remote computing systems to users. We measured the performance of applications accessed through zero clients to study the feasibility of using this approach to provide a desktop-pc experience across a network. Performance evaluation is complicated because monitoring software cannot be downloaded to the zero clients. Therefore, we introduce a new methodology and metric to measure zero-client VD performance that is based on network-traffic analysis. We conducted objective and subjective studies to determine the sensitivity of application-specific metrics to different network conditions. The results show that the packet loss rate (PLR) impacts zero-client performance for some applications such as video streaming. Subjective tests showed a greater user sensitivity to the PLR for video streaming than for image viewing or Skype. A strong correlation was found between the objective and subjective measurements but the rate at which these measurements changed with increasing PLR differed depending on the application.NSF [CNS-1737453]Open access journalThis item from the UA Faculty Publications collection is made available by the University of Arizona with support from the University of Arizona Libraries. If you have questions, please contact us at [email protected]
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Exposure measurement error in PM2.5 health effects studies: A pooled analysis of eight personal exposure validation studies
Background: Exposure measurement error is a concern in long-term PM2.5 health studies using ambient concentrations as exposures. We assessed error magnitude by estimating calibration coefficients as the association between personal PM2.5 exposures from validation studies and typically available surrogate exposures. Methods: Daily personal and ambient PM2.5, and when available sulfate, measurements were compiled from nine cities, over 2 to 12 days. True exposure was defined as personal exposure to PM2.5 of ambient origin. Since PM2.5 of ambient origin could only be determined for five cities, personal exposure to total PM2.5 was also considered. Surrogate exposures were estimated as ambient PM2.5 at the nearest monitor or predicted outside subjectsâ homes. We estimated calibration coefficients by regressing true on surrogate exposures in random effects models. Results: When monthly-averaged personal PM2.5 of ambient origin was used as the true exposure, calibration coefficients equaled 0.31 (95% CI:0.14, 0.47) for nearest monitor and 0.54 (95% CI:0.42, 0.65) for outdoor home predictions. Between-city heterogeneity was not found for outdoor home PM2.5 for either true exposure. Heterogeneity was significant for nearest monitor PM2.5, for both true exposures, but not after adjusting for city-average motor vehicle number for total personal PM2.5. Conclusions: Calibration coefficients were <1, consistent with previously reported chronic health risks using nearest monitor exposures being under-estimated when ambient concentrations are the exposure of interest. Calibration coefficients were closer to 1 for outdoor home predictions, likely reflecting less spatial error. Further research is needed to determine how our findings can be incorporated in future health studies
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