Exercise Physiology
Exercise physiology links
Cellular Respiration. Kimaballs Biology Pages.
Mitochondria, the citric acid cycle, the respiratory chain, chemiosmosis in mitochondria, how many ATPs, mitochrondrial DNA.
http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/C/CellularRespiration.html
ATP and Biological Energy. Maricopa Community Colleges, USA.
The nature of ATP. How to make ATP.
http://www.emc.maricopa.edu/faculty/farabee/BIOBK/BioBookATP.html
Exercise Prescription Online. ExRx.net.
Beginner's Page. Exercise Instruction. Weight Training. Structural Kinesiology. Exercise Info. Adaptation and Safety. Fitness Testing. Fat Loss. Diet and Nutrition. Exercise and Sports Psychology. Anabolic Steroids. Bodybuilding. Fitness Calculators. Links. People Behind ExRx. Author. Special Services. Visitor Feedback. ExRx on the Net Forum, Online Consulting.
http://www.exrx.net/
Glycolyis and Krebs Cycle. MIT's Biology Hypertextbook.
Overview of cellular energy metabolism. Detailed diagram of glycolysis (animated). Electron transport portion of energy metabolism. ATP yield from metabolism of glucose.
http://web.mit.edu/esgbio/www/glycolysis/dir.html
Aerobic Energy Systems. San Diego State University.
Overview of aerobic metabolism, mitochondria, krebs cycle, electron transport chain (oxidation and phosphorylation), lipid metabolism.
http://www-rohan.sdsu.edu/course/ens304/public_html/section1/AerobicSystem.htm
Anaerobic Energy Systems. San Diego State University.
Anaerobic glycolysis, muscle glycogen, regulation of glycolysis.
http://www-rohan.sdsu.edu/course/ens304/public_html/section1/Glycolysis.htm
Cardiovascular Response to Exercise. San Diego State University.
Blood pressure response to different exercise. Regulation of blood flow and pressure. Effects of incremental exercise on blood pressure. Effects of isometric exercise on blood pressure.
http://www-rohan.sdsu.edu/course/ens304/public_html/section1/CVresponses.htm
Exercise Physiology. Adger University College, Stephen Seiler.
The methods and mechanisms underlying performance. The Heart: Basic Physiology. Training The Heart. The Aging Heart. Understanding Heart Rate. Skeletal Muscles: Basic Physiology, Training Skeletal Muscle. Aging Skeletal Muscle. Fiber Type. The Package: What is VO2 Max? . What is Lactate Threshold? Efficiency and Performance Brain-Body Link. Aging, Exercise and Short Term Power. Principles of Training. The Time Course of Training Adaptations. Understanding Interval Training. Elite Male Distance Runners 22 Years Later. Gender Differences in Performance and Training. Strength Training and Endurance Performance. Muscle Hypertrophy vs Hyperplasia. Ventilation and Endurance Performance. Physiology and Performance of: Cycling, Running, rowing, Swimming, Cross-country Skiing.
http://home.hia.no/%7Estephens/exphys.htm
Exercise Physiology Primer. Nicholas Institute of Sports Medicine and Athletic Trauma.
Determinants of maximal O2 consumption. Expressing VO2 max. Measuring VO2 max. Questions about VO2 max.
http://www.nismat.org/physcor/max_o2.html
Cellular Metabolism and Fermentation. Maricopa Community Colleges.
Glycolysis, the universal process, anaerobic pathways, aerobic respiration.
http://www.emc.maricopa.edu/faculty/farabee/BIOBK/BioBookGlyc.html
Lactic Acid. Sports Coach.
Introduction, lactate shuttle, hydrogen ions, aerobic capacity, anaerobic threshold, what a low lactate threshold means, improving your lactate threshold.
http://www.brianmac.demon.co.uk/lactic.htm
Cellular Respiration. University of Connecticut, Thomas M. Terry.
Interactive, animated exploration of cellular respiration including: The electron transport system. Aerobic and anaerobic electron acceptors. ATP synthase and the proton gradient.
http://www.sp.uconn.edu/~terry/Common/respiration.html
SporTech : Sport & Performance.
Physiology of sport : energetic sorces, comparison of metabolisms, muscular structure, cardiovascular system ,respiratory system, hormone system. Management of performances : aerobic metabolism, basis of training, solutions for PC, effeccts of ageing, specialists' tips. Estimate your potential : aerobic power, aerobic endurance, anaerobic power, ideal weight, repetitions of efforts, heart rates, cycling power. Test your knowledge. Annexes.
http://sportech.online.fr/spen_idx.html
Gas Laws and their Application. University of Southern California, USA.
Boyles Law. Charles Law. The Ideal Gas Law. Partial pressures of gases. Partial pressure of water vapour at different temperatures.BTPS. STPD. How to convert BTPS to STPD. Links.
http://www.usc.edu/dept/biomed/bme403/Section_1/r2.html
Physiology of Exercise. San Diego State University, USA.
Functions of the cardio-respiratiry system. Direction of blood flow. Cardiac cycle. Cardiac regulation. Cardiac conduction pathway. Circulatory (vascular) system. Regulation of blood flow and pressure. Peripheral system blood pressure. Blood distribution during rest. Blood flow redistribution during exercise. Effects of exercise on cardiac muscle. Response to incremental exercise. Effects of incremental exercise on blood pressure. Effects of isometric exercise on blood pressure. Gas transport and exchange. Gas exchange and transport. Pulmonary ventilation. Ventilattion response to exercise. Ventilatory regulation of acid-base balance. VE and VO2 response to incremental exercise. Maximal oxygen consumption, VO2max. Normalised data for VO2max. Heart adaptations to training. Performance adaptations to training. Cardio-respiratory training adaptations.
http://www-rohan.sdsu.edu/course/ens304/public_html/section1/cardiorespiratory.ppt
