PředmětyPředměty(verze: 916)
Předmět, akademický rok 2022/2023
   Přihlásit přes CAS
Bioenergetics of Motion Activities - PLSM097NC
Anglický název: Bioenergetics of Motion Activities
Zajišťuje: Laboratoř sportovní motoriky (51-300900)
Fakulta: Fakulta tělesné výchovy a sportu
Platnost: od 2022
Semestr: zimní
Body: 0
E-Kredity: 3
Způsob provedení zkoušky: zimní s.:
Rozsah, examinace: zimní s.:1/1, KZ [HT]
Počet míst: neomezen / neomezen (neurčen)
Minimální obsazenost: neomezen
Virtuální mobilita / počet míst: ne
Stav předmětu: vyučován
Jazyk výuky: čeština
Způsob výuky: prezenční
Úroveň:  
Garant: prof. Ing. Václav Bunc, CSc.
Vyučující: prof. Ing. Václav Bunc, CSc.
Anotace -
Poslední úprava: Mgr. Dominika Krupková (07.02.2020)
The aim of the course is to introduce the possibility of bioenergy cost of physical activity as the starting tool for assessing the relationship between intervention and its effect for the needs of both the management of sports training and for primary and secondary prevention in selected patient groups. In particular, the energy cost of basic physical activities such as walking, running, swimming and cycling will be explored.
Literatura -
Poslední úprava: Mgr. Dominika Krupková (07.02.2020)

1. ASTRAND, P.O., RODAHL, K. (1996). Textbook of Work Physiology. New York: McGraw Hill.

2. Brennan, S.F., Cresswell, A.G., Farris, D.J., Lichtwark, G.A. (2019) The Effect of Cadence on the Mechanics and Energetics of Constant Power Cycling. Med Sci Sports Exerc. May, 51(5):941-950. doi: 10.1249/MSS.0000000000001863.

3. BUNC, V. (2016) Obesity - Causes and Remedies. Physical Activity Review, 4:50-56.

4. Danielsen, J., Sandbakk, Ø., McGhie, D., Ettema, G. (2019) Mechanical energetics and dynamics of uphill double-poling on roller-skis at different incline-speed combinations. PLoS One. Feb 22, 14(2):e0212500. doi: 10.1371/journal.pone.0212500. eCollection 2019.

5. HEYWARD, V.H. (2010). Advanced Fitness Assessment and Exercise Prescription. Champaign, Il: Human Kinetics.

6. Hill, J.O., Wyatt, H.R., Peters, J.C. (2012). Energy balance and obesity. Circulation. 126:126-32.

7. MCARDLE, W.D., KATCH, F.I., KATCH, V.L. (1996). Exercise physiology: energy nutrition, and human performace. Wiliams and Wilkins, Baltimore: Wiliams and Wilkins.

8. SPARROW, W.A. (ed), (2000). Energetics of Human Activity. Champaign, Il: Human KineticsZamparo, P., Pavei, G., Monte, A., Nardello, F., Otsu, T., Numazu, N., Fujii, N., Minetti. A.E. (2019) Mechanical work in shuttle running as a function of speed and distance: Implications for power and efficiency. Hum Mov Sci. Jun 13, 66:487-496. doi: 10.1016/j.humov.2019.06.005.

Požadavky ke zkoušce -
Poslední úprava: Mgr. Dominika Krupková (07.02.2020)

80% participation, written report with course topic

Sylabus -
Poslední úprava: Mgr. Dominika Krupková (07.02.2020)

1. Introduction

2. Movement - characteristics and "species"

3. Demand of physical activities

4. Physical activity energy cost, relationship energy - exercise intensity

5. Dependence on age, training and previous physical experience

6. Cultivation of "techniques" of physical activity as a basis for energy cost reduction

7. Coefficient of physical activity energy cost

8. Energy cost of walking and running

9. Energy balance of physical activity, adaptation and energy cost

10. Mechanical efficiency of physical activity

11. Determination of physical activities energy cost as a basis for the management of movement training

12. Evaluation in the laboratory

13. Field evaluation

14. Use in the movement intervention proposal and the construction of physical training

 
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