For cyclic sport activities (on land and in water) the energy expenditure of physical activity (PAEE) can be accurately measured when the energy cost (C) of that form of locomotion is known. C depends on the speed and the mode of locomotion and is calculated by the ratio: E’/v where E’ is metabolic power (derived from aerobic and anaerobic energy sources) and v is the progression speed. C of a given form of locomotion, and at a given speed, depends also on the factors that affect mechanical work (W) and locomotion efficiency (ηL). In this chapter the determinants of C in land locomotion will be presented and discussed with a particular focus on walking, running and cycling
Energy costs of locomotion in mammals can be predicted from running speed and body mass, with the mi...
A simple model predicts the energy cost of bipedal locomotion for given speed, stride length, duty f...
This is the final paper in or series examining the link between the energetics and mechanics of terr...
For cyclic sport activities (on land and in water) the energy expenditure of physical activity can b...
Maximal absolute speeds in human locomotion range from a minimum of about 7km?h-1 in swimming (100m ...
Physical Activity (PAA) can be accurately measured when the energy cost (C) of that form of locomoti...
In this chapter the determinants of C (the energy cost of locomotion) in aquatic sport activities wi...
The energy expended to transport the body over a given distance (C, the energy cost) increases with ...
Locomotion is the most common form of movement in nature. Its study allows analysis of interactions ...
Walking and running are the basic means of influencing an individual’s condition, his or her health ...
In human locomotion, the metabolic power required ((E)over dot) to cover a given distance d, in the ...
In this paper a complete energy balance for water locomotion is attempted with the aim of comparing ...
When dealing with human-powered vehicles, it is important to quantify the capability of converting m...
Methods are described for studying the metabolic cost of increased and diminished gravitational work...
This is the final paper in or series examining the link between the energetics and mechanics of terr...
Energy costs of locomotion in mammals can be predicted from running speed and body mass, with the mi...
A simple model predicts the energy cost of bipedal locomotion for given speed, stride length, duty f...
This is the final paper in or series examining the link between the energetics and mechanics of terr...
For cyclic sport activities (on land and in water) the energy expenditure of physical activity can b...
Maximal absolute speeds in human locomotion range from a minimum of about 7km?h-1 in swimming (100m ...
Physical Activity (PAA) can be accurately measured when the energy cost (C) of that form of locomoti...
In this chapter the determinants of C (the energy cost of locomotion) in aquatic sport activities wi...
The energy expended to transport the body over a given distance (C, the energy cost) increases with ...
Locomotion is the most common form of movement in nature. Its study allows analysis of interactions ...
Walking and running are the basic means of influencing an individual’s condition, his or her health ...
In human locomotion, the metabolic power required ((E)over dot) to cover a given distance d, in the ...
In this paper a complete energy balance for water locomotion is attempted with the aim of comparing ...
When dealing with human-powered vehicles, it is important to quantify the capability of converting m...
Methods are described for studying the metabolic cost of increased and diminished gravitational work...
This is the final paper in or series examining the link between the energetics and mechanics of terr...
Energy costs of locomotion in mammals can be predicted from running speed and body mass, with the mi...
A simple model predicts the energy cost of bipedal locomotion for given speed, stride length, duty f...
This is the final paper in or series examining the link between the energetics and mechanics of terr...