Research Methods in Biomechanics, 2EHuman Kinetics, 25 de set. de 2013 - 440 páginas Detailing up-to-date research technologies and approaches, Research Methods in Biomechanics, Second Edition, assists both beginning and experienced researchers in developing methods for analyzing and quantifying human movement. |
Conteúdo
E5144 000 Intro 16 | 1 |
E5144 01 P1C1 734 | 7 |
E5144 02 C2 3560 | 35 |
E5144 03 P2C3 6178 | 61 |
E5144 04 C4 79108 | 79 |
E5144 05 C5 109130 | 109 |
E5144 06 C6 131150 | 131 |
E5144 07 C7 151176 | 151 |
E5144 15 AppenA 339342 | 339 |
E5144 16 AppenB 343344 | 343 |
E5144 17 AppenC 345354 | 345 |
E5144 18 AppenD 355360 | 355 |
E5144 19 AppenE 361364 | 361 |
E5144 20 AppenF 365368 | 365 |
E5144 21 AppenG 369372 | 369 |
E5144 22 AppenH 373374 | 373 |
E5144 08 P3C8 177202 | 177 |
E5144 09 C9 203232 | 203 |
E5144 10 C10 233246 | 233 |
E5144 11 C11 247276 | 247 |
E5144 12 P4C12 277290 | 277 |
E5144 13 C13 291316 | 291 |
E5144 14 C14 317338 | 317 |
E5144 23 AppenI 375376 | 375 |
E5144 24 Answers 377388 | 377 |
E5144 25 Glossary 389394 | 389 |
| 395 | |
| 415 | |
E5144 28 AuthorAd 427428 | 427 |
Outras edições - Ver todos
Research Methods in Biomechanics D. Gordon E. Robertson,Graham E. Caldwell,Joseph Hamill,Gary Kamen,Saunders Whittlesey Visualização parcial - 2013 |
Termos e frases comuns
amplitude analysis angular acceleration angular velocity ankle applied axis biomechanics body segment body’s calculated center of gravity center of mass changes chapter computed coordinate system defined direction distal electrodes electromyographic EMG signal equation estimate example figure filter flexion flexor foot force platform forces and moments frequency function gait cycle gastrocnemius ground reaction force human movement inertia inverse dynamics isometric joint angles joint moments kinematic kinetic knee linear lower extremity M-wave magnitude markers matrix measure mechanical energy method moment of inertia moments of force motion motor units muscle fibers muscle forces muscle model musculoskeletal models optimization parameters patterns phase plane plantar principal component principal component analysis proximal quantify relative phase represent rigid body rotation sarcomeres simulation soleus surface techniques thigh tion torque unit vector values variability vertical voltage walking waveform zero