This is the final paper in or series examining the link between the energetics and mechanics of terrestrial locomotion. In this paper the kinetic energy of the limbs and body relative to the centre of mass (EKE, tot of paper two) is combined with the potential plus kinetic energy of the centre of mass (ECM, tot of paper three) to obtain the total mechanical energy (excluding elastic energy) of an animal during constant average-speed locomotion. The minimum mass-specific power required of the muscles and tendons to maintain the observed oscillations in total energy, Etot/Mb, can be described by one equation: Etot/Mb = 0.478 . vg 1.53 + 0.685 . vg + 0.072 where Etot/Mb is in W kg-1 and vg is in m s-1. This equation is independent of body size...
Animals use different amounts of energy to move from place to place depending on their size and mode...
Terrestrial animals have 'preferred speeds ' within each gait, that are used much more fre...
Walking and running, the two basic gaits used by man, are very complex movements. They can, however,...
This is the final paper in or series examining the link between the energetics and mechanics of terr...
This is the final paper in or series examining the link between the energetics and mechanics of terr...
This is the second paper in a series examining the link between energetics and mechanics of terrestr...
This is the second paper in a series examining the link between energetics and mechanics of terrestr...
This series of four papers investigates the link between the energetics and the mechanics of terrest...
The work done during each step to lift and to reaccelerate (in the forward direction) and center of ...
Energy costs of locomotion in mammals can be predicted from running speed and body mass, with the mi...
Previous studies have shown that large animals have systematically lower mass-specific costs of loco...
The energetic cost of generating muscular force was studied by measuring the energetic cost of carry...
Three-dimensional motion capture and metabolic assessment were performed on four standardbred horses...
The purpose of this study was to examine the mechanical adaptations linked to economical locomotion ...
Three-dimensional motion capture and metabolic assessment were performed on four standardbred horses...
Animals use different amounts of energy to move from place to place depending on their size and mode...
Terrestrial animals have 'preferred speeds ' within each gait, that are used much more fre...
Walking and running, the two basic gaits used by man, are very complex movements. They can, however,...
This is the final paper in or series examining the link between the energetics and mechanics of terr...
This is the final paper in or series examining the link between the energetics and mechanics of terr...
This is the second paper in a series examining the link between energetics and mechanics of terrestr...
This is the second paper in a series examining the link between energetics and mechanics of terrestr...
This series of four papers investigates the link between the energetics and the mechanics of terrest...
The work done during each step to lift and to reaccelerate (in the forward direction) and center of ...
Energy costs of locomotion in mammals can be predicted from running speed and body mass, with the mi...
Previous studies have shown that large animals have systematically lower mass-specific costs of loco...
The energetic cost of generating muscular force was studied by measuring the energetic cost of carry...
Three-dimensional motion capture and metabolic assessment were performed on four standardbred horses...
The purpose of this study was to examine the mechanical adaptations linked to economical locomotion ...
Three-dimensional motion capture and metabolic assessment were performed on four standardbred horses...
Animals use different amounts of energy to move from place to place depending on their size and mode...
Terrestrial animals have 'preferred speeds ' within each gait, that are used much more fre...
Walking and running, the two basic gaits used by man, are very complex movements. They can, however,...