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Exercise Physiology-
16
Aerobic : long term energy system
OxygenDeficit : the difference between oxygen consumed and the amount that would have been consumed had steady state been reached right from the start
Exergonic : Any physical or chemical process that releases energy to its surroundings
Endergonic : Chemical processes store or absorb energy
Enzymes : highly specific and large protein catalyst that accelerates the forward and reverse rates of chemical reactions within the body without being consumed or changed in the reaction
ModeofAction : How an enzyme interacts with its specific substrate
Adenosinetriphosphate : provides the required energy for all cellular functions
Phosphocreatine : abbreviated PCr
Phosphorylation : energy transfer through phosphate bonds of ATP to other compounds to raise them to a higher activation level
Oxidation : Biologic burning of macronutrients in the body for the energy needed for phosphorylation
Glycolysis : Carbohydrate breakdown
VO2max : indicates an individual’s capacity to aerobically resynthese ATP
Alveoli : Elastic thin-walled sacs
Dyspnea : Shortness of breath of distressed breathing
ValsalvaManeuver : Forced exhalation against a closed glottis
StaticLungVolume : dimensional component for air movement within the pulmonary tract
DynamicLungVolume : power component of pulmonary performance
Exercise Physiology-
Across:| 1. | Forced exhalation against a closed glottis | | 6. | Shortness of breath of distressed breathing | | 7. | Elastic thin-walled sacs | | 9. | Biologic burning of macronutrients in the body for the energy needed for phosphorylation |
| | 10. | Any physical or chemical process that releases energy to its surroundings | | 12. | How an enzyme interacts with its specific substrate | | 14. | indicates an individual’s capacity to aerobically resynthese ATP |
| | Down:| 2. | dimensional component for air movement within the pulmonary tract | | 3. | Chemical processes store or absorb energy | | 4. | energy transfer through phosphate bonds of ATP to other compounds to raise them to a higher activation level | | 5. | power component of pulmonary performance | | 7. | provides the required energy for all cellular functions |
| | 8. | the difference between oxygen consumed and the amount that would have been consumed had steady state been reached right from the start | | 10. | highly specific and large protein catalyst that accelerates the forward and reverse rates of chemical reactions within the body without being consumed or changed in the reaction | | 11. | Carbohydrate breakdown | | 13. | long term energy system |
| |
© 2013
PuzzleFast.com, Noncommercial Use Only
Exercise Physiology-
Across:| 1. | Forced exhalation against a closed glottis | | 6. | Shortness of breath of distressed breathing | | 7. | Elastic thin-walled sacs | | 9. | Biologic burning of macronutrients in the body for the energy needed for phosphorylation |
| | 10. | Any physical or chemical process that releases energy to its surroundings | | 12. | How an enzyme interacts with its specific substrate | | 14. | indicates an individual’s capacity to aerobically resynthese ATP |
| | Down:| 2. | dimensional component for air movement within the pulmonary tract | | 3. | Chemical processes store or absorb energy | | 4. | energy transfer through phosphate bonds of ATP to other compounds to raise them to a higher activation level | | 5. | power component of pulmonary performance | | 7. | provides the required energy for all cellular functions |
| | 8. | the difference between oxygen consumed and the amount that would have been consumed had steady state been reached right from the start | | 10. | highly specific and large protein catalyst that accelerates the forward and reverse rates of chemical reactions within the body without being consumed or changed in the reaction | | 11. | Carbohydrate breakdown | | 13. | long term energy system |
| |
© 2013
PuzzleFast.com, Noncommercial Use Only
