Fundamentals of Biomechanics

Basmajian, J. V., & Wolf, S. L. (Eds.) (1990). Therapeutic
exercise (5th ed.). Baltimore: Williams
& Wilkins.
Bates, B. T., Osternig, L. R., Sawhill, J. A., &
Janes, S. L. (1983). An assessment of subject
variability, subject-shoe interaction, and the
evaluation of running shoes using ground
reaction forces. Journal of Biomechanics, 16,
181–191.
Bauer, J. J., Fuchs, R. K., Smith, G. A., & Snow,
C. M. (2001). Quantifying force magnitude
and loading rate from drop landings that induce
osteogenesis. Journal of Applied Biomechanics,
17, 142–152.
Bawa, P. (2002). Neural control of motor output:
Can training change it? Exercise and Sport
Sciences Reviews, 30, 59–63.
Beattie, P. F., & Meyers, S. P. (1998). Magnetic resonance
imaging in low back pain: General
pinciples and clinical issues. Physical Therapy,
78, 738–753.
Beer, F. P., & Johnston, E. R. (1984). Vector mechanics
for engineers: Statics and dynamics (4th
ed.). New York: McGraw-Hill.
Benjanuvatra, N. Dawson, B., Blanksby, B. A., &
Elliott, B. C. (2002). Comparison of buoyancy,
passive and net active drag forces between
Fastskin and standard swimsuits.
Journal of Science and Medicine in Sport, 5,
115–123.
Berger, M. A. M., de Groot, G., & Hollander, A. P.
(1995). Hydrodynamic drag and lift force on
human hand/arm models. Journal of Biomechanics,
28, 125–133.
Bernstein, N. A. (1967). The co-ordination and regulation
of movements. Oxford: Pergamon
Press.
Berthoin, S., Dupont, G., Mary, P., & Gerbeaux,
M. (2001). Predicting sprint kinematic parameters
from anaerobic field tests in physical
education students. Journal of Strength
and Conditioning Research, 15, 75–80.
Biewener, A. A. (1998). Muscle function in vivo:
A comparison of muscles used for elastic
energy savings versus muscles used to generate
mechanical power. American Zoologist,
38, 703–717.
Biewener, A. A., & Blickhan, R. (1988). Kangaroo
rat locomotion: Design for elastic energy
storage or acceleration. Journal of Experimental
Biology, 140, 243–255.
REFERENCES 259
Biewener, A. A., & Roberts, T. J. (2000). Muscle
and tendon contributions to force, work,
and elastic energy savings: A comparative
perspective. Exercise and Sport Sciences Reviews,
28, 99–107.
Bird, M., & Hudson, J. (1998). Measurement of
elastic-like behavior in the power squat.
Journal of Science and Medicine in Sport, 1,
89–99.
Bjerklie, D. (1993). High-tech olympians. Technology
Review, 96(1), 22–30.
Blackard, D. O., Jensen, R. L., & Ebben, W. P.
(1999). Use of EMG analysis in challenging
kinetic chain terminology. Medicine and Science
in Sports and Exercise, 31, 443–448.
Bloomfield, J., Ackland, T. R., & Elliott, B. C.
(1994). Applied anatomy and biomechanics in
sport. Melbourne: Blackwell Scientific Publications.
Bobbert, M. F. (1990). Drop jumping as a training
method for jumping ability. Sports Medicine,
9, 7–22.
Bobbert, M. F., & van Ingen Schenau, G. J. (1988).
Coordination in vertical jumping. Journal of
Biomechanics, 21, 249–262.
Bobbert, M. F., & van Soest, A. J. (1994). Effects
of muscle strengthening on vertical jump
height: A simulation study. Medicine and
Science in Sports and Exercise, 26, 1012–1020.
Bobbert, M. F., & van Zandwijk, J. P. (1999). Dynamics
of force and muscle stimulation in
human vertical jumping. Medicine and Science
in Sports and Exercise, 31, 303–310.
Bobbert, M. F., Makay, M., Schinkelshoek, D.,
Huijing, P. A., & van Ingen Schenau, G. J.
(1986). Biomechanical analysis of drop and
countermovement jumps. European Journal
of Applied Physiology, 54, 566–573.
Bobbert, M. F., Gerritsen, K. G. M., Litjens,
M. C. A., & van Soest, A. J. (1996). Why is
countermovement jump height greater than
squat jump height? Medicine and Science in
Sports and Exercise, 28, 1402–1412.
Boden, B. P., Griffin, L. Y., & Garrett, W. E. (2000).
Etiology and prevention of noncontact ACL
injury. Physican and Sportsmedicine, 28(4),
53–60.
Bojsen-Moller, F., & Magnusson, S. P. (Eds.)
(2000). Basic science of knee joint injury
mechanisms [special issue]. Scandinavian