Texas heavy metal band Pantera released a number of EPs for the song "Walk" in 1993.
Walk (EP)
Walk (EP) is an EP by the Texas heavy metal band Pantera. It was released in Japan only, in 1993 by Atco Records. On May 16, 2012, the EP was made available to purchase digitally in the United States for the first time.
Based purely on length, this recording is considered an EP. There are also the parallel releases Walk Biomechanical and Walk Cervical, which are singles, not EPs, owing to their total length.
While this was only a Japanese release, it was also released as Disc 3 in the Driven Downunder Tour '94 Souvenir Collection box set which was released in 1994.
Track listing
All songs written and composed by Pantera.
Walk Biomechanical
Walk Biomechanical is an EP by the Texas heavy metal band Pantera. It was released in 1993 by Atco Records.
Biomechanics of Walking: Gait Cycle and Abnormal Gait ft. Maren Hunsberger | Corporis
Almost every human follows the same biomechanical pattern of walking -- what we call gait. And since it's so often the cause (or consequence of pain), movement experts spend a lot of time studying the normal gait cycle.
Subscribe to Maren: https://www.youtube.com/channel/UCjtFjiOi2Ih35R0rjPmE2MQ.
☠️NONE OF THE INFORMATION IN THIS VIDEO SHOULD BE USED AS MEDICAL ADVICE OR OPINION. IT IS FOR GENERAL EDUCATION AND ENTERTAINMENT☠️
🔗 L I N K S 🔗
📱Instagram: https://www.instagram.com/patkellyteaches/
🐦Twitter: https://twitter.com/PatKellyTeaches
💰Patreon: https://www.patreon.com/corporis
📽 O T H E R V I D E O S 📽
⚰️Medical History playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNGcIesiheCNuPvuQyRlRavb
🔬Anatomy Basics playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNE...
published: 04 Nov 2019
Gait Muscular Activity & Action
After watching this video you be able to describe muscle activation throughout the whole gait cycle. Differentiate between concentric and eccentric muscle activity. Name muscles active at the hip, knee and ankle joints.
published: 02 Nov 2020
Leg Muscles During Walking
This animation was done for Aberystwyth University's Sports Science Department, in collaboration with Dr. Marco Arkesteijn, to help students visualise the complex interaction of muscles in the leg during walking. The data used to make this animation was generated in the department's high-tech motion capture suite. Discover fabulous resources about how to create media in education and examples from across Welsh Universities at http://www.cadarn.ac.uk.
published: 10 Nov 2014
Biomechanical Human Simulation: Walk
published: 06 May 2020
Mobility Enhancing Soft Exosuit at Harvard
Next generation wearable robots for enhancing mobility of healthy individuals and restoring mobility of those with physical disabilities via a more conformal and unobtrusive interface to the human body. To learn more visit the Harvard Biodesign Lab website at http://biodesign.seas.harvard.edu.
Muscle Activation During Gait animation credit: K. Oberhofer, K. Mithraratne, N. S. Stott, I. A. Anderson (2009). Anatomically-based musculoskeletal modeling: prediction and validation of muscle deformation during walking. The Visual Computer, 25(9), 843 – 851
published: 11 Sep 2014
THE PHASES OF WALKING (GAIT CYCLE BREAKDOWN)
This video breaks down each component of the gait cycle along with reference values for range of motion at the hip/knee/ankle and muscle activation. These values may not apply to everyone and should only be used for educational purposes! The data is based on: O'Sullivan and Schimitz: Physical Rehabilitation, Fifth edition, 2008, Philadelphia.
Music:
Into The Clouds by Nicolai Heidlas Music https://soundcloud.com/nicolai-heidlas
Creative Commons — Attribution 3.0 Unported— CC BY 3.0
http://creativecommons.org/licenses/b...
Music promoted by Audio Library https://youtu.be/g7KZAoj4YH0
published: 22 Jan 2018
Biomechanical Human Simulation: Explosive Walk
published: 06 May 2020
Biomechanical analysis
For further information on Biomechanics of Bodies (BoB) see www.BoB-biomechanics.com
For other BoB videos, search for mendip89.
published: 02 Sep 2012
What is Biomechanics? How do Muscles work? How to do Physiotherapy? Biology and Physics Episode 101
Welcome to Episode 101 of our happy learning series. Biomechanics is the scientific study of the mechanics of living organisms and the application of engineering principles to and from biological systems. It combines principles from physics, mechanics, and biology to understand how living organisms move, how their bodies withstand forces, and how to optimize or improve physical performance, health, and injury prevention. Here is a detailed breakdown of the field:
Basic Principles of Biomechanics
1. Kinematics: This area studies motion without considering the forces that cause it. It includes parameters such as displacement, velocity, and acceleration. Kinematics can be linear (straight-line motion) or angular (rotational motion).
2. Kinetics: This involves the study of forces that cause...
published: 18 Aug 2024
Biomechanical Human Simulation: Walk with Arms Out
Almost every human follows the same biomechanical pattern of walking -- what we call gait. And since it's so often the cause (or consequence of pain), movement ...
Almost every human follows the same biomechanical pattern of walking -- what we call gait. And since it's so often the cause (or consequence of pain), movement experts spend a lot of time studying the normal gait cycle.
Subscribe to Maren: https://www.youtube.com/channel/UCjtFjiOi2Ih35R0rjPmE2MQ.
☠️NONE OF THE INFORMATION IN THIS VIDEO SHOULD BE USED AS MEDICAL ADVICE OR OPINION. IT IS FOR GENERAL EDUCATION AND ENTERTAINMENT☠️
🔗 L I N K S 🔗
📱Instagram: https://www.instagram.com/patkellyteaches/
🐦Twitter: https://twitter.com/PatKellyTeaches
💰Patreon: https://www.patreon.com/corporis
📽 O T H E R V I D E O S 📽
⚰️Medical History playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNGcIesiheCNuPvuQyRlRavb
🔬Anatomy Basics playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNE5E4jKX9JOrXITW-kIfZCc
💪Kinesiology and Biomechanics playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNGkKlDT2ctqTpPtJgAPOpjx
📜 S O U R C E S 📜
Overview of the Gait Cycle
https://www.sciencedirect.com/topics/engineering/gait-cycle
Gait disorders in adults and the elderly: A clinical guide
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5318488/
Predicting the Biomechanics of Walking
https://www.sciencedirect.com/science/article/pii/B9780124051904000076
💊A B O U T 💊
Hi, I’m Patrick. I’m a freelance science writer based in the San Francisco Bay Area. I hold a bachelor’s degree in Athletic Training and a master’s in clinical exercise physiology. I used to work in the clinical setting as a certified athletic trainer, physical therapy aide, and a certified strength and conditioning specialist. After working in the clinical setting, I went back to school and became a teacher. The goal of my content is to help normal people, not just pre-med students, learn about the human body. That might mean explaining a topic from an anatomy class or exploring a topic from medical history.
💻 C O N T A C T 💻
If you’d like to sponsor a video or have other business inquiries:
patkellyteaches [at] gmail.com
#corporis #anatomy #medicalhistory
Almost every human follows the same biomechanical pattern of walking -- what we call gait. And since it's so often the cause (or consequence of pain), movement experts spend a lot of time studying the normal gait cycle.
Subscribe to Maren: https://www.youtube.com/channel/UCjtFjiOi2Ih35R0rjPmE2MQ.
☠️NONE OF THE INFORMATION IN THIS VIDEO SHOULD BE USED AS MEDICAL ADVICE OR OPINION. IT IS FOR GENERAL EDUCATION AND ENTERTAINMENT☠️
🔗 L I N K S 🔗
📱Instagram: https://www.instagram.com/patkellyteaches/
🐦Twitter: https://twitter.com/PatKellyTeaches
💰Patreon: https://www.patreon.com/corporis
📽 O T H E R V I D E O S 📽
⚰️Medical History playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNGcIesiheCNuPvuQyRlRavb
🔬Anatomy Basics playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNE5E4jKX9JOrXITW-kIfZCc
💪Kinesiology and Biomechanics playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNGkKlDT2ctqTpPtJgAPOpjx
📜 S O U R C E S 📜
Overview of the Gait Cycle
https://www.sciencedirect.com/topics/engineering/gait-cycle
Gait disorders in adults and the elderly: A clinical guide
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5318488/
Predicting the Biomechanics of Walking
https://www.sciencedirect.com/science/article/pii/B9780124051904000076
💊A B O U T 💊
Hi, I’m Patrick. I’m a freelance science writer based in the San Francisco Bay Area. I hold a bachelor’s degree in Athletic Training and a master’s in clinical exercise physiology. I used to work in the clinical setting as a certified athletic trainer, physical therapy aide, and a certified strength and conditioning specialist. After working in the clinical setting, I went back to school and became a teacher. The goal of my content is to help normal people, not just pre-med students, learn about the human body. That might mean explaining a topic from an anatomy class or exploring a topic from medical history.
💻 C O N T A C T 💻
If you’d like to sponsor a video or have other business inquiries:
patkellyteaches [at] gmail.com
#corporis #anatomy #medicalhistory
After watching this video you be able to describe muscle activation throughout the whole gait cycle. Differentiate between concentric and eccentric muscle activ...
After watching this video you be able to describe muscle activation throughout the whole gait cycle. Differentiate between concentric and eccentric muscle activity. Name muscles active at the hip, knee and ankle joints.
After watching this video you be able to describe muscle activation throughout the whole gait cycle. Differentiate between concentric and eccentric muscle activity. Name muscles active at the hip, knee and ankle joints.
This animation was done for Aberystwyth University's Sports Science Department, in collaboration with Dr. Marco Arkesteijn, to help students visualise the compl...
This animation was done for Aberystwyth University's Sports Science Department, in collaboration with Dr. Marco Arkesteijn, to help students visualise the complex interaction of muscles in the leg during walking. The data used to make this animation was generated in the department's high-tech motion capture suite. Discover fabulous resources about how to create media in education and examples from across Welsh Universities at http://www.cadarn.ac.uk.
This animation was done for Aberystwyth University's Sports Science Department, in collaboration with Dr. Marco Arkesteijn, to help students visualise the complex interaction of muscles in the leg during walking. The data used to make this animation was generated in the department's high-tech motion capture suite. Discover fabulous resources about how to create media in education and examples from across Welsh Universities at http://www.cadarn.ac.uk.
Next generation wearable robots for enhancing mobility of healthy individuals and restoring mobility of those with physical disabilities via a more conformal an...
Next generation wearable robots for enhancing mobility of healthy individuals and restoring mobility of those with physical disabilities via a more conformal and unobtrusive interface to the human body. To learn more visit the Harvard Biodesign Lab website at http://biodesign.seas.harvard.edu.
Muscle Activation During Gait animation credit: K. Oberhofer, K. Mithraratne, N. S. Stott, I. A. Anderson (2009). Anatomically-based musculoskeletal modeling: prediction and validation of muscle deformation during walking. The Visual Computer, 25(9), 843 – 851
Next generation wearable robots for enhancing mobility of healthy individuals and restoring mobility of those with physical disabilities via a more conformal and unobtrusive interface to the human body. To learn more visit the Harvard Biodesign Lab website at http://biodesign.seas.harvard.edu.
Muscle Activation During Gait animation credit: K. Oberhofer, K. Mithraratne, N. S. Stott, I. A. Anderson (2009). Anatomically-based musculoskeletal modeling: prediction and validation of muscle deformation during walking. The Visual Computer, 25(9), 843 – 851
This video breaks down each component of the gait cycle along with reference values for range of motion at the hip/knee/ankle and muscle activation. These value...
This video breaks down each component of the gait cycle along with reference values for range of motion at the hip/knee/ankle and muscle activation. These values may not apply to everyone and should only be used for educational purposes! The data is based on: O'Sullivan and Schimitz: Physical Rehabilitation, Fifth edition, 2008, Philadelphia.
Music:
Into The Clouds by Nicolai Heidlas Music https://soundcloud.com/nicolai-heidlas
Creative Commons — Attribution 3.0 Unported— CC BY 3.0
http://creativecommons.org/licenses/b...
Music promoted by Audio Library https://youtu.be/g7KZAoj4YH0
This video breaks down each component of the gait cycle along with reference values for range of motion at the hip/knee/ankle and muscle activation. These values may not apply to everyone and should only be used for educational purposes! The data is based on: O'Sullivan and Schimitz: Physical Rehabilitation, Fifth edition, 2008, Philadelphia.
Music:
Into The Clouds by Nicolai Heidlas Music https://soundcloud.com/nicolai-heidlas
Creative Commons — Attribution 3.0 Unported— CC BY 3.0
http://creativecommons.org/licenses/b...
Music promoted by Audio Library https://youtu.be/g7KZAoj4YH0
Welcome to Episode 101 of our happy learning series. Biomechanics is the scientific study of the mechanics of living organisms and the application of engineerin...
Welcome to Episode 101 of our happy learning series. Biomechanics is the scientific study of the mechanics of living organisms and the application of engineering principles to and from biological systems. It combines principles from physics, mechanics, and biology to understand how living organisms move, how their bodies withstand forces, and how to optimize or improve physical performance, health, and injury prevention. Here is a detailed breakdown of the field:
Basic Principles of Biomechanics
1. Kinematics: This area studies motion without considering the forces that cause it. It includes parameters such as displacement, velocity, and acceleration. Kinematics can be linear (straight-line motion) or angular (rotational motion).
2. Kinetics: This involves the study of forces that cause motion. It includes the analysis of forces such as gravity, friction, and muscle forces, and how they influence movement.
3. Statics and Dynamics: Statics is the study of bodies at rest or in equilibrium, where all forces are balanced. Dynamics deals with bodies in motion and the forces that produce this motion.
4. Stress and Strain: Stress is the internal force per unit area within materials that arise from externally applied forces. Strain is the deformation or displacement of material that results from an applied stress.
5. Torque and Levers: Torque is the rotational equivalent of force. The body uses levers, which are rigid structures (like bones) that rotate around a pivot point (joints) to produce movement.
Applications of Biomechanics
1. Sports and Exercise: Biomechanics helps in analyzing athletic performance to enhance skills, prevent injuries, and design better sports equipment. For example, studying the mechanics of a runner’s gait can help optimize running techniques and shoe design.
2. Clinical Biomechanics: This involves the application of biomechanics in medical settings to understand, diagnose, and treat musculoskeletal disorders. For instance, it is used in the design of prosthetic limbs and orthopedic implants, and in rehabilitation practices.
3. Ergonomics: This field applies biomechanics to design tools, workspaces, and systems that improve human performance and reduce the risk of injury. It ensures that the design of devices aligns with human anatomy and physiology.
4. Comparative Biomechanics: This branch studies the biomechanics of different species to understand evolutionary adaptations and the functional capabilities of various organisms. It can include studying the flight mechanics of birds or the swimming mechanics of fish.
5. Biofluid Mechanics: This area focuses on the behavior of fluids within biological systems, such as blood flow in the cardiovascular system or airflow in the respiratory system. It is crucial for understanding conditions like atherosclerosis or asthma.
Key Concepts in Biomechanics
1. Center of Mass and Center of Gravity: Understanding the distribution of mass within the body and how it affects balance and movement.
2. Biomechanical Pathways: Pathways that describe the flow of mechanical energy through the body, such as during walking or running.
3. Material Properties: Studying the properties of biological tissues, such as bone, muscle, tendon, and ligaments, and how they respond to different types of loading.
4. Load and Deformation: Understanding how different loads (compression, tension, shear) affect the deformation of biological tissues.
Happy Sunday! Happy Learning!!
From - Tirith Learning Centre - The House of Physics
Our Science Channel on Youtube - Rupesh Verma IIT Guwahati
Video Content:
00:15 : Sports
01:00 : Biology and Physics
01:20 : Biomechanics
01:40 : Physiotherapy
02:10 : Motion Analysis
03:00 : Athletic Performance
03:40 : Prosthetic Limbs
04:10 : Blade Runner
04:40 : Gait Trainer
05:20 : Ergonomics
#Olympics2024 #Paris2024 #Paralympics2024 #OlympicGames #ParalympicGames #RoadToParis #GoldMedal #OlympicSpirit #ParalympicPride #TeamUSA #AthletesInAction #Inspiration2024 #SportForAll #TogetherWeRise #Champions2024 #ParisOlympics #OlympicHeroes #ParalympicChampions #InclusiveSports #OlympicJourney #GlobalGames #ParisParalympics #AthletesOfTheWorld #OlympicDreams #EqualOpportunity #GoForGold #BreakingBarriers #AdaptiveSports #SpiritOfCompetition #UnityInDiversity
Rupesh Verma
Rupesh Verma IIT Guwahati
Rupesh IIT Guwahati
Rupesh Verma Sir
Rupesh Sir
Rupesh Sir IIT
Rupesh Sir IIT JEE
Rupesh Sir Physics
Rupesh Sir Science
Rupesh Sir Technolgy
IIT Guwahati
Happy Sunday
Happy Learning
Best Science Channel
Best Physics Channel
Science Channel Hindi
Physics Channel Hindi
NCERT Solution
CBSE Class 10
CBSE Class 12
ICSE Class 10
ICSE Class 12
Exam Strategy
Exam Prep
NEET Motivation
Future Doctors
IIT Dream
IIT Motivation
Science Fun Facts
Physics Fun Facts
JEE Preparation
NEET Preparation
Engineering Life
Engineering World
Technology Gyan
Welcome to Episode 101 of our happy learning series. Biomechanics is the scientific study of the mechanics of living organisms and the application of engineering principles to and from biological systems. It combines principles from physics, mechanics, and biology to understand how living organisms move, how their bodies withstand forces, and how to optimize or improve physical performance, health, and injury prevention. Here is a detailed breakdown of the field:
Basic Principles of Biomechanics
1. Kinematics: This area studies motion without considering the forces that cause it. It includes parameters such as displacement, velocity, and acceleration. Kinematics can be linear (straight-line motion) or angular (rotational motion).
2. Kinetics: This involves the study of forces that cause motion. It includes the analysis of forces such as gravity, friction, and muscle forces, and how they influence movement.
3. Statics and Dynamics: Statics is the study of bodies at rest or in equilibrium, where all forces are balanced. Dynamics deals with bodies in motion and the forces that produce this motion.
4. Stress and Strain: Stress is the internal force per unit area within materials that arise from externally applied forces. Strain is the deformation or displacement of material that results from an applied stress.
5. Torque and Levers: Torque is the rotational equivalent of force. The body uses levers, which are rigid structures (like bones) that rotate around a pivot point (joints) to produce movement.
Applications of Biomechanics
1. Sports and Exercise: Biomechanics helps in analyzing athletic performance to enhance skills, prevent injuries, and design better sports equipment. For example, studying the mechanics of a runner’s gait can help optimize running techniques and shoe design.
2. Clinical Biomechanics: This involves the application of biomechanics in medical settings to understand, diagnose, and treat musculoskeletal disorders. For instance, it is used in the design of prosthetic limbs and orthopedic implants, and in rehabilitation practices.
3. Ergonomics: This field applies biomechanics to design tools, workspaces, and systems that improve human performance and reduce the risk of injury. It ensures that the design of devices aligns with human anatomy and physiology.
4. Comparative Biomechanics: This branch studies the biomechanics of different species to understand evolutionary adaptations and the functional capabilities of various organisms. It can include studying the flight mechanics of birds or the swimming mechanics of fish.
5. Biofluid Mechanics: This area focuses on the behavior of fluids within biological systems, such as blood flow in the cardiovascular system or airflow in the respiratory system. It is crucial for understanding conditions like atherosclerosis or asthma.
Key Concepts in Biomechanics
1. Center of Mass and Center of Gravity: Understanding the distribution of mass within the body and how it affects balance and movement.
2. Biomechanical Pathways: Pathways that describe the flow of mechanical energy through the body, such as during walking or running.
3. Material Properties: Studying the properties of biological tissues, such as bone, muscle, tendon, and ligaments, and how they respond to different types of loading.
4. Load and Deformation: Understanding how different loads (compression, tension, shear) affect the deformation of biological tissues.
Happy Sunday! Happy Learning!!
From - Tirith Learning Centre - The House of Physics
Our Science Channel on Youtube - Rupesh Verma IIT Guwahati
Video Content:
00:15 : Sports
01:00 : Biology and Physics
01:20 : Biomechanics
01:40 : Physiotherapy
02:10 : Motion Analysis
03:00 : Athletic Performance
03:40 : Prosthetic Limbs
04:10 : Blade Runner
04:40 : Gait Trainer
05:20 : Ergonomics
#Olympics2024 #Paris2024 #Paralympics2024 #OlympicGames #ParalympicGames #RoadToParis #GoldMedal #OlympicSpirit #ParalympicPride #TeamUSA #AthletesInAction #Inspiration2024 #SportForAll #TogetherWeRise #Champions2024 #ParisOlympics #OlympicHeroes #ParalympicChampions #InclusiveSports #OlympicJourney #GlobalGames #ParisParalympics #AthletesOfTheWorld #OlympicDreams #EqualOpportunity #GoForGold #BreakingBarriers #AdaptiveSports #SpiritOfCompetition #UnityInDiversity
Rupesh Verma
Rupesh Verma IIT Guwahati
Rupesh IIT Guwahati
Rupesh Verma Sir
Rupesh Sir
Rupesh Sir IIT
Rupesh Sir IIT JEE
Rupesh Sir Physics
Rupesh Sir Science
Rupesh Sir Technolgy
IIT Guwahati
Happy Sunday
Happy Learning
Best Science Channel
Best Physics Channel
Science Channel Hindi
Physics Channel Hindi
NCERT Solution
CBSE Class 10
CBSE Class 12
ICSE Class 10
ICSE Class 12
Exam Strategy
Exam Prep
NEET Motivation
Future Doctors
IIT Dream
IIT Motivation
Science Fun Facts
Physics Fun Facts
JEE Preparation
NEET Preparation
Engineering Life
Engineering World
Technology Gyan
Almost every human follows the same biomechanical pattern of walking -- what we call gait. And since it's so often the cause (or consequence of pain), movement experts spend a lot of time studying the normal gait cycle.
Subscribe to Maren: https://www.youtube.com/channel/UCjtFjiOi2Ih35R0rjPmE2MQ.
☠️NONE OF THE INFORMATION IN THIS VIDEO SHOULD BE USED AS MEDICAL ADVICE OR OPINION. IT IS FOR GENERAL EDUCATION AND ENTERTAINMENT☠️
🔗 L I N K S 🔗
📱Instagram: https://www.instagram.com/patkellyteaches/
🐦Twitter: https://twitter.com/PatKellyTeaches
💰Patreon: https://www.patreon.com/corporis
📽 O T H E R V I D E O S 📽
⚰️Medical History playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNGcIesiheCNuPvuQyRlRavb
🔬Anatomy Basics playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNE5E4jKX9JOrXITW-kIfZCc
💪Kinesiology and Biomechanics playlist: https://www.youtube.com/playlist?list=PL2rpvfNeooNGkKlDT2ctqTpPtJgAPOpjx
📜 S O U R C E S 📜
Overview of the Gait Cycle
https://www.sciencedirect.com/topics/engineering/gait-cycle
Gait disorders in adults and the elderly: A clinical guide
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5318488/
Predicting the Biomechanics of Walking
https://www.sciencedirect.com/science/article/pii/B9780124051904000076
💊A B O U T 💊
Hi, I’m Patrick. I’m a freelance science writer based in the San Francisco Bay Area. I hold a bachelor’s degree in Athletic Training and a master’s in clinical exercise physiology. I used to work in the clinical setting as a certified athletic trainer, physical therapy aide, and a certified strength and conditioning specialist. After working in the clinical setting, I went back to school and became a teacher. The goal of my content is to help normal people, not just pre-med students, learn about the human body. That might mean explaining a topic from an anatomy class or exploring a topic from medical history.
💻 C O N T A C T 💻
If you’d like to sponsor a video or have other business inquiries:
patkellyteaches [at] gmail.com
#corporis #anatomy #medicalhistory
After watching this video you be able to describe muscle activation throughout the whole gait cycle. Differentiate between concentric and eccentric muscle activity. Name muscles active at the hip, knee and ankle joints.
This animation was done for Aberystwyth University's Sports Science Department, in collaboration with Dr. Marco Arkesteijn, to help students visualise the complex interaction of muscles in the leg during walking. The data used to make this animation was generated in the department's high-tech motion capture suite. Discover fabulous resources about how to create media in education and examples from across Welsh Universities at http://www.cadarn.ac.uk.
Next generation wearable robots for enhancing mobility of healthy individuals and restoring mobility of those with physical disabilities via a more conformal and unobtrusive interface to the human body. To learn more visit the Harvard Biodesign Lab website at http://biodesign.seas.harvard.edu.
Muscle Activation During Gait animation credit: K. Oberhofer, K. Mithraratne, N. S. Stott, I. A. Anderson (2009). Anatomically-based musculoskeletal modeling: prediction and validation of muscle deformation during walking. The Visual Computer, 25(9), 843 – 851
This video breaks down each component of the gait cycle along with reference values for range of motion at the hip/knee/ankle and muscle activation. These values may not apply to everyone and should only be used for educational purposes! The data is based on: O'Sullivan and Schimitz: Physical Rehabilitation, Fifth edition, 2008, Philadelphia.
Music:
Into The Clouds by Nicolai Heidlas Music https://soundcloud.com/nicolai-heidlas
Creative Commons — Attribution 3.0 Unported— CC BY 3.0
http://creativecommons.org/licenses/b...
Music promoted by Audio Library https://youtu.be/g7KZAoj4YH0
Welcome to Episode 101 of our happy learning series. Biomechanics is the scientific study of the mechanics of living organisms and the application of engineering principles to and from biological systems. It combines principles from physics, mechanics, and biology to understand how living organisms move, how their bodies withstand forces, and how to optimize or improve physical performance, health, and injury prevention. Here is a detailed breakdown of the field:
Basic Principles of Biomechanics
1. Kinematics: This area studies motion without considering the forces that cause it. It includes parameters such as displacement, velocity, and acceleration. Kinematics can be linear (straight-line motion) or angular (rotational motion).
2. Kinetics: This involves the study of forces that cause motion. It includes the analysis of forces such as gravity, friction, and muscle forces, and how they influence movement.
3. Statics and Dynamics: Statics is the study of bodies at rest or in equilibrium, where all forces are balanced. Dynamics deals with bodies in motion and the forces that produce this motion.
4. Stress and Strain: Stress is the internal force per unit area within materials that arise from externally applied forces. Strain is the deformation or displacement of material that results from an applied stress.
5. Torque and Levers: Torque is the rotational equivalent of force. The body uses levers, which are rigid structures (like bones) that rotate around a pivot point (joints) to produce movement.
Applications of Biomechanics
1. Sports and Exercise: Biomechanics helps in analyzing athletic performance to enhance skills, prevent injuries, and design better sports equipment. For example, studying the mechanics of a runner’s gait can help optimize running techniques and shoe design.
2. Clinical Biomechanics: This involves the application of biomechanics in medical settings to understand, diagnose, and treat musculoskeletal disorders. For instance, it is used in the design of prosthetic limbs and orthopedic implants, and in rehabilitation practices.
3. Ergonomics: This field applies biomechanics to design tools, workspaces, and systems that improve human performance and reduce the risk of injury. It ensures that the design of devices aligns with human anatomy and physiology.
4. Comparative Biomechanics: This branch studies the biomechanics of different species to understand evolutionary adaptations and the functional capabilities of various organisms. It can include studying the flight mechanics of birds or the swimming mechanics of fish.
5. Biofluid Mechanics: This area focuses on the behavior of fluids within biological systems, such as blood flow in the cardiovascular system or airflow in the respiratory system. It is crucial for understanding conditions like atherosclerosis or asthma.
Key Concepts in Biomechanics
1. Center of Mass and Center of Gravity: Understanding the distribution of mass within the body and how it affects balance and movement.
2. Biomechanical Pathways: Pathways that describe the flow of mechanical energy through the body, such as during walking or running.
3. Material Properties: Studying the properties of biological tissues, such as bone, muscle, tendon, and ligaments, and how they respond to different types of loading.
4. Load and Deformation: Understanding how different loads (compression, tension, shear) affect the deformation of biological tissues.
Happy Sunday! Happy Learning!!
From - Tirith Learning Centre - The House of Physics
Our Science Channel on Youtube - Rupesh Verma IIT Guwahati
Video Content:
00:15 : Sports
01:00 : Biology and Physics
01:20 : Biomechanics
01:40 : Physiotherapy
02:10 : Motion Analysis
03:00 : Athletic Performance
03:40 : Prosthetic Limbs
04:10 : Blade Runner
04:40 : Gait Trainer
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Texas heavy metal band Pantera released a number of EPs for the song "Walk" in 1993.
Walk (EP)
Walk (EP) is an EP by the Texas heavy metal band Pantera. It was released in Japan only, in 1993 by Atco Records. On May 16, 2012, the EP was made available to purchase digitally in the United States for the first time.
Based purely on length, this recording is considered an EP. There are also the parallel releases Walk Biomechanical and Walk Cervical, which are singles, not EPs, owing to their total length.
While this was only a Japanese release, it was also released as Disc 3 in the Driven Downunder Tour '94 Souvenir Collection box set which was released in 1994.
Track listing
All songs written and composed by Pantera.
Walk Biomechanical
Walk Biomechanical is an EP by the Texas heavy metal band Pantera. It was released in 1993 by Atco Records.
A small 2021 study suggested additional weights don’t alter the biomechanics of walking or running ... One older study investigated treadmill walking for 30 minutes, three times a week in postmenopausal women with osteoporosis.
Advertisement ... But here’s the thing ... “They were fully upright, and while slightly shorter and with a slight difference in gait, biomechanical modeling suggests they walked just as efficiently as living people.”Neanderthals had a sense of bling ... . .
But due to the difference in biomechanics, backwards walking can actually bring some physical benefits ... "The biomechanics of walking backwards is very different than forward walking," Dufek told Mosley.
When you’ve got weakness or imbalance in your hips and core, it leads to poor alignment and compensatory stress on your knees during movements like walking, running, or squatting.
In one of the first such studies, Australian biomechanics researchers found that young women who habitually wore high heels walked with shorter, more-thwacking strides than women who usually wore ...
"The human foot is one of the most complex masterpieces of evolution, a work of art in biomechanics. not only does it allow us to walk, run and jump, but it is also a true witness of our past and our ...
A base of support for the body, the arch both acts as a shock absorber, dissipating the forces of bearing weight, and a spring, storing and releasing energy during walking and running.
One of the slightly bizarre new fitness trends doing the rounds is retro walking. Basically, walking backwards ... Pablo Ortega Auriol, a research fellow at the Auckland Bioengineering Institute, is an expert in the biomechanics of walking.
The designs of the stones are strikingly sophisticated, said Edwards, with Kendrick using his knowledge of biomechanics – the science of the movement of the body.
Pediatricians have charts that say how fast children typically walk based on their age, but no such normative data exists for crawling ... And there are very few studies on the implications of skipping crawling and going straight to walking.
Pediatricians have charts that say how fast children typically walk based on their age, but no such normative data exists for crawling ... And there are very few studies on the implications of skipping crawling and going straight to walking.
"As one takes a step, the foot rolls from lateral to medial in normal foot biomechanics." ... People are, of course, born without pinky toes, or lose them later due to illness or accidents, and are able to adjust to walking without.
In the video, a patient, visibly in pain and barely able to walk, visits Leong ...Chiropractic, on the other hand, works to restore the biomechanics of the body that decides how we walk, stand, and sit.
Baliston's proprietary sensor modules embedded within the tech-augmented shoes measure biomechanical data on the quality of posture and walk (symmetry, pronation, supination, propulsion, heel impact ...
Caledonian Record
09 Aug 2023
Caledonian Record
09 Aug 2023