Search Results - Atmosphere

Li, C., Zhang, W. “…It discusses many techniques, including biofeedback, stress management, goal setting, cognitive restructuring, visualization, pre-performance rituals, simulated pressure scenarios, and creating a supportive team atmosphere. By practicing these tactics, Italian riders can acquire the psychological fortitude required to negotiate stressful competition situations successfully. the overall research It is vital to constantly assess and modify treatments to make sure they are efficient and meet the demands of each athlete. …”

Brocherie, F., Goto, K., Dupuy, O., Gruet, M., Vercruyssen, F., Louis, J. “…Editorial on the Research Topic From Physiological Adaptations to Endurance Performance: It Is Time to Bridge the Gap Endurance Performance: A Vast Worksite At first glance, endurance performance appears relatively simple as it relates to the efficiency of the aerobic metabolism through the cascade of oxygen transfer from inspiration of atmospheric oxygen down to tissue mitochondria (Hoppeler, 2018). …”

Kawano, K., Oda, R., Inagaki, A., Nakayoshi, M. “…Scientific Online Letters on the Atmosphere (SOLA)…”

Downs, N. J., Axelsen, T., Parisi, A. V., Schouten, A. V., Dexter, A. R. “…Atmosphere…”

Crum, E., Che Muhamed, M., Stannard, S. “…This study investigated whether POM reduces the O2 cost of exercise in highly-trained cyclists and if the effect is greater at high altitude where lower atmospheric O2 pressures impair O2 delivery to the muscles. …”

Nekic, J., Mavra, N., Penezic, Z. “…It assesses 30 questions focusing on skill/competence, status/acknowledgment energy release, team atmosphere and affiliations. The follow -up questionnaire was Dropout questionnaire designed for the purposes of this research with aim to get more information on the different reasons for leaving sport. …”

Hirabayashi, S., Abe, T., Imamura, F., Morioka, C. “…Atmosphere…”

Kosaka, E., Iida, A., Vanos, J., Middel, A., Yokohari, M., Brown, R. “…Atmosphere…”

El Helou, N.Tafflet, M., Berthelot, G., Tolaini, J., Marc, A., Guillaume, M., Hausswirth, C., Toussaint, J.-F. “…Four environmental factors were gathered for each of the 60 races: temperature (°C), humidity (%), dew point (°C), and the atmospheric pressure at sea level (hPA); as well as the concentrations of four atmospheric pollutants: NO2 - SO2 - O3 and PM10 (µg.m-3). …”

Novak, A. R., Stevens, C. J., Dascombe, B. J. “…The LeMond Revolution measures power output via removal of the rear bicycle wheel and attaching it using a quick-release system, estimating power output through a head-unit that processes drive-train resistance and atmospheric conditions. Fourteen well-trained cyclists completed incremental protocols and power profile assessments on a bicycle fitted with SRM scientific power meter and attached to a LeMond Revolution cycle ergometer. …”

Ferrer Roca, B. “…The performance in road cycling depends on several factors such as physiology (VO2Max, intensity, pedalling efficiency, fatigue, age, gender), environment (air-wind, atmospheric pressure, temperature, relative humidity, and the slope of the terrain) psychology, (self-talk, focus and teleoanticipation), training (strength, endurance, altitude training, heat acclimation, technique and tapering), nutrition (competitive nutritional strategy) and biomechanics (resistive forces, propulsive forces, pedalling kinematics and bicycle set-up). …”

El Helou, N., Tafflet, M., Berthelot, G., Tolaini, J., Marc, A., Guillaume, M., Hausswirth, C., Toussaint, J.-F. “…Four environmental factors were gathered for each of the 60 races: temperature (°C), humidity (%), dew point (°C), and the atmospheric pressure at sea level (hPA); as well as the concentrations of four atmospheric pollutants: NO2 - SO2 - O3 and PM10 (?…”

Lukes, R., Hart, J., Haake, S. “…It is believed this may be attributable to discrepancies in atmospheric variables. However the model has proved capable of predicting the velocity increase, specifically associated with track cycling, as a cyclist passes through a bend. …”

Lukes, R., Carre, M., Haake, S. “…Various inputs are required by the model, such as; rider power, atmospheric conditions, tyre properties, velodrome geometry, aerodynamic properties and bike and rider characteristics. …”

Ansley, L., Clair Gibson, A., Hunter, A., Neary, P., Skowno, J., Noakes, T. “…To evaluate the effect of inspired oxygen fraction (F1O2) on cardiac output and muscle recruitment eight highly trained cyclists performed two 20-km cycling time trials in an atmospherically-sealed chamber in which inspired O2 concentration was altered mid-way through the exercise bout. …”

Marques-Bruna, P., Grimshaw, P. “…Prediction equations were developed using curve fitting. Non-standard atmospheric conditions alter the pressure altitude and density altitude of a particular race location. …”

Ogita, F. “…The exercise intensity (water flow rate) decreased with decrease in atmospheric pressure. During the exhaustive swimming, rate of aerobic energy release diminished with increase in hypobaric hypoxia, while not only AOD but also rate of anaerobic energy release throughout the exercise were unaffected despite the decreased O2 demand caused by diminished exercise intensity due to hypobaric hypoxia. …”

Ansley, L., Petersen, D., Thomas, A., Noakes, T. D. “…Methods To evaluate the separate and combined effects of O2 delivery and respiratory muscle work on incremental maximal exercise performance, we exercised 8 highly trained cyclists in an atmospherically-sealed chamber in which inspired O2 concentrations were elevated (FIO2 = 0.30) and helium (He) was substituted for nitrogen in the ambient air in order to reduce the work of breathing during exercise. …”

Kinsman, T. A., Hahn, A. G., Gore, C. J., Martin, D. T., Chow, C. M. “…Strategies applied during sleep to potentially enhance athlete performance use different atmospheric conditions. High altitude conditions are known to affect sleep adversely but the effects of mild-moderate altitude and O2 enrichment at mild altitude are uncertain. …”

Kinsman, T. A., Hahn, A. A. G., Gore, C. J., Martin, D. “…Strategies applied during sleep to potentially enhance athlete performance use different atmospheric conditions. High altitude conditions are known to affect sleep adversely but the effects of mild-moderate altitude and O2 enrichment at mild altitude are uncertain. …”