12:38

Lecture 5.4: Putting it All Together to Model Muscle-Tendon Force

02:47

Biomechanics of Movement | Demo: Electrical Stimulation of Muscle

01:54

Biomechanics of Movement | Demo: Measuring Metabolic Cost of Locomotion

01:53

Biomechanics of Movement | Demo: Energy Exchange Mechanisms During Walking and Running

04:29

Biomechanics of Movement | Demo: Motion Capture Experiment: Interpreting Data

04:09

Biomechanics of Movement | Demo: Motion Capture Experiment

07:53

Biomechanics of Movement | Demo: Motion Capture Placement and Reference Frames

02:22

Biomechanics of Movement | Muscle of the Day: Tibialis Anterior

01:09

Biomechanics of Movement | Muscle of the Day: Sartorius

02:02

Biomechanics of Movement | Muscle of the Day: Rotator Cuff

02:55

Biomechanics of Movement | Muscle of the Day: Quads

03:25

Biomechanics of Movement | Muscle of the Day: Gastrocnemius & Soleus

02:24

Biomechanics of Movement | Muscle of the Day: Extraocular Muscles

02:20

Biomechanics of Movement | Muscle of the Day: Biceps Brachii

05:42

Biomechanics of Movement | Lecture 13.6: Personal Reflections on Biomechanics

13:13

Biomechanics of Movement | Lecture 13.5: Biomechanics as a Global Open Science Collaboration

12:34

Biomechanics of Movement | Lecture 13.4: Biomechanics at Planetary Scale

09:35

Biomechanics of Movement | Lecture 13.3: Democratizing Access to Human Movement Analysis

10:14

Biomechanics of Movement | Lecture 13.2: Personalized Biomechanics for People with Osteoarthritis

08:23

Biomechanics of Movement | Lecture 13.1: The Future of Biomechanics: Motivations from Muybridge

07:06

Biomechanics of Movement | Lecture 12.4: Saving Energy While Running with an Exotendon

07:57

Biomechanics of Movement | Lecture 12.3: Muscle Actions in Running and Sprinting

06:51

Biomechanics of Movement | Lecture 12.2: Creating Muscle-Driven Simulations of Running

04:03

Biomechanics of Movement | Lecture 12.1: Why Create Muscle-Driven Simulations of Running?

09:04

Biomechanics of Movement | Lecture 11.5: How Walking Speed Affects Muscle Actions

06:17

Biomechanics of Movement | Lecture 11.4: Muscle Actions During Crouch Gait

04:58

Biomechanics of Movement | Lecture 11.3: Muscles that Sing Together Swing Together

10:42

Biomechanics of Movement | Lecture 11.2: Muscle Coordination During Stance

07:56

Biomechanics of Movement | Lecture 11.1: Why Create Muscle-Driven Simulations of Walking?

08:04

Biomechanics of Movement | Lecture 10.7: OpenSim: A Powerful Tool for Muscle-Driven Simulation

05:32

Biomechanics of Movement | Lecture 10.6: Impact Through Real-World Predictions and Sharing Your Work

05:18

Biomechanics of Movement | Lecture 10.5: Assessing Sensitivity to Build Confidence in your Results

14:06

Biomechanics of Movement | Lecture 10.4: Understanding and Evaluating your Methods

09:30

Biomechanics of Movement | Lecture 10.3: Defining your Research Question

06:47

Biomechanics of Movement | Lecture 10.2: Verification and Validation: Is My Model Good Enough?

11:51

Biomechanics of Movement | Lecture 10.1: Muscle-Driven Simulations: What Are They & How To Use Them

06:40

Biomechanics of Movement | Lecture 9.2: Dynamic Optimization of a Standing Long Jump

08:53

Biomechanics of Movement | Lecture 9.1: Estimating Muscle Forces with Static Optimization

20:56

Biomechanics of Movement | Lecture 8.2: Leaping into Inverse Dynamics Analysis of a Vertical Jump

04:03

Biomechanics of Movement | Lecture 8.1: Inverse Dynamics: What is a Joint Moment?

03:57

Biomechanics of Movement | Lecture 7.6: Inverse Kinematics: Filtering & Differentiating Motion Data

23:34

Biomechanics of Movement | Lecture 7.5: Inverse Kinematics: Calculating Transformations

05:48

Biomechanics of Movement | Lecture 7.4: Inverse Kinematics: From Marker Locations to Joint Angles

07:39

Biomechanics of Movement | Lecture 7.3: Measuring Movement: Force Plates & Markerless Motion Capture

10:08

Biomechanics of Movement | Lecture 7.2: Measuring Movement with Marker-Based Motion Capture

04:13

Biomechanics of Movement | Lecture 7.1: Why Quantify Movement?

04:43

Biomechanics of Movement | Lecture 4.3: What is Tendon?

16:06

Biomechanics of Movement | Lecture 4.2: Basic Muscle Properties: Force-Length and Force-Velocity

14:08

Biomechanics of Movement | Lecture 4.1: Converting Food into Movement: Muscle Structure & Force

02:28

Biomechanics of Movement | Introduction to Part IV: Muscle-Driven Walking

00:53

Biomechanics of Movement | Introduction to Part III: Analysis of Movement.

01:34

Biomechanics of Movement | Introduction to Part II: Production of Movement

01:05

Biomechanics of Movement | Introduction to Part I: Locomotion

04:50

Biomechanics of Movement | Demo: Welcome to Stanford's Human Performance Lab

05:11

Biomechanics of Movement | Demo: Force Plate Recordings on a Treadmill

08:46

Biomechanics of Movement | Demo: Recording EMG to Study Muscle Activity

03:53

Biomechanics of Movement | Demo: Walk to Run Transition with Altered Gravity

05:16

Biomechanics of Movement | Lecture 6.6: Modeling Musculoskeletal Geometry

04:48

Biomechanics of Movement | Lecture 6.5: Understanding Muscle Strength

06:10

Biomechanics of Movement | Lecture 6.4: Using Musculoskeletal Geometry to Compute Hamstring Velocity