By Vladimir Zatsiorsky, William Kraemer
Chapter 1 easy concerns for workout (pages 3–7): Howard G. Knuttgen and Paavo V. Komi
Chapter 2 Neuronal regulate of useful circulate (pages 11–26): Volker Dietz
Chapter three Motor Unit and Motoneurone Excitability in the course of Explosive circulate (pages 27–49): Toshio Moritani
Chapter four Muscular foundation of power (pages 50–72): R. Billeter and H. Hoppeler
Chapter five Hormonal Mechanisms relating to the Expression of Muscular power and tool (pages 73–95): William J. Kraemer and Scott A. Mazzetti
Chapter 6 Exercise?Related variations in Connective Tissue (pages 96–113): Ronald F. Zernicke and Barbara Loitz?Ramage
Chapter 7 Contractile functionality of Skeletal Muscle Fibres (pages 114–133): K.A. Paul Edman
Chapter eight Skeletal Muscle and Motor Unit structure: impression on functionality (pages 134–153): Roland R. Roy, Ryan J. Monti, Alex Lai and V. Reggie Edgerton
Chapter nine Mechanical Muscle versions and Their program to strength and gear construction (pages 154–183): Walter Herzog and Rachid Ait?Haddou
Chapter 10 Stretch?Shortening Cycle (pages 184–202): Paavo V. Komi
Chapter eleven Stretch?Shortening Cycle Fatigue and its impact on strength and tool construction (pages 203–228): Caroline Nicol and Paavo V. Komi
Chapter 12 mobile and Molecular elements of variation in Skeletal Muscle (pages 231–251): Geoffrey Goldspink and Stephen Harridge
Chapter thirteen Hypertrophy and Hyperplasia (pages 252–264): J. Duncan Macdougall
Chapter 14 Acute and persistent Muscle Metabolic diversifications to power education (pages 265–280): consistent with A. Tesch and Bjorn A. Alkner
Chapter 15 Neural edition to energy education (pages 281–314): Digby G. Sale
Chapter sixteen Mechanisms of Muscle and Motor Unit model to Explosive strength education (pages 316–330): Jacques Duchateau and Karl Hainaut
Chapter 17 Proprioceptive education: concerns for power and tool creation (pages 331–342): Albert Gollhofer
Chapter 18 Connective Tissue and Bone reaction to power education (pages 343–360): Michael H. Stone and Christina Karatzaferi
Chapter 19 Endocrine Responses and diversifications to energy and tool education (pages 361–386): William J. Kraemer and Nicholas A. Ratamess
Chapter 20 Cardiovascular Responses to energy education (pages 387–406): Steven J. Fleck
Chapter 21 growing old and Neuromuscular version to power education (pages 409–425): Keijo Hakkinen
Chapter 22 Use of electric Stimulation in power and gear education (pages 426–435): Gary A. Dudley and Scott W. Stevenson
Chapter 23 Biomechanics of energy and power education (pages 439–487): Vladimir M. Zatsiorsky
Chapter 24 Vibration quite a bit: capability for power and tool improvement (pages 488–501): Joachim Mester, Peter Spitzenpfeil and Zengyuan Yue
Chapter 25 education for Weightlifting (pages 502–515): John Garhammer and Bob Takano
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Additional info for Strength and Power in Sport, Second Edition
M. Herman), WennerGren International Symposium Series, pp. 505–512. Macmillan, London. S. L. (1979) Segemental postural mechanisms and reversals of muscle reﬂexes. Agressologie 20 (Suppl. B), 145–146. I. E. (1979) On the origin of short-latency muscle responses to postural disturbances. Agressologie 20 (Suppl. B), 153–154. E. N. (1988) Body scheme in the control of postural activity. In: Stance and Motion Facts and Concepts (eds S. E. Joffe, J. P. Roll), pp. 185–193. Plenum, New York. H. & Debu, B.
1970) and intramuscular and nerve stimulations in humans (Moritani & Yoshitake 1998). Force curves obtained during constant-frequency stimulation (CONT) or with an extra high-frequency pulse (CATCH). and intramuscular EMG recordings and nearinfrared spectroscopy (NIRS), respectively (Moritani & Yoshitake 1998). In this study, two different stimulation methods were employed: (i) the posterior tibial nerve was stimulated supramaximally to induce maximal actions of triceps surae muscle; and (ii) intramuscular microstimulation was performed to study the catchlike property of single muscle ﬁbres.
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