Keyphrases
Age-related Differences
100%
Triceps Surae
100%
Jump Performance
100%
Drop Jump
100%
Mechanical Properties
100%
Jump Height
88%
Middle-aged Adults
77%
Muscle Strength
77%
Tendon Stiffness
66%
Muscle-tendon Unit
66%
Task Execution
44%
Unit Capacity
44%
Execution Strategy
44%
Older Adults
44%
Ground Contact Time
44%
Motor Task
44%
Muscle Tendon
33%
Mechanical Power
33%
Tendon
33%
Vertical Ground Reaction Force
22%
Aging Effect
22%
Middle-aged
22%
Custom-made
22%
Locomotor Performance
22%
MATLAB Software
22%
No Significant Difference
11%
Plantar Flexion
11%
Maximum Isometric Strength
11%
Motor Strategy
11%
Locomotor Function
11%
Low Force
11%
Ground Contact
11%
Neuromuscular Factor
11%
Age-related Decline
11%
Kistler
11%
Force-length Relationship
11%
Lower Average
11%
Force Plate
11%
Angular Rotation
11%
Dynamometer
11%
Knee Flexion
11%
MathWorks
11%
Human Gastrocnemius
11%
Gastrocnemius Medialis muscle
11%
Ankle Joint
11%
Energy Storage Capacity
11%
Repeated Measures ANOVA
11%
Aponeurosis
11%
Inverse Dynamics
11%
Motor Task Performance
11%
Aging
11%
Achilles Tendon Stiffness
11%
Generating Capacity
11%
Joint Moment
11%
Contact Phase
11%
Myotendinous Junction
11%
Jumping Performance
11%
Linear Region
11%
Biomechanical Properties
11%
Royal Society
11%
Gastrocnemius
11%
Applied Physiology
11%
Italy
11%
Pearson Product-moment Correlation Coefficient
11%
Drop Height
11%
Dominant Leg
11%
Massachusetts
11%
Ground Reaction Force
11%
Performance Task
11%
Power Generating
11%
Engineering
Ground Contact
100%
Motor Task
100%
Contact Time
80%
Reaction Force
60%
Mechanical Power
60%
Joints (Structural Components)
40%
Pearsons Linear Correlation Coefficient
20%
Plantarflexion
20%
Generating Capacity
20%
Force Plate
20%
Units of Measurement
20%
Linear Region
20%
Dynamometer
20%
Biomechanical Property
20%
Energy Storage Capacity
20%