Beneficial long legs like?

For years, scientists have known that the energy consumption of walking and jogging is highly related to the activities performed by muscles to lift and move limbs. But how much energy does it really take to travel? Whether long legs c & oa

For years, scientists have known that the energy consumption of walking and jogging is highly related to the activities performed by muscles to lift and move limbs. But how much energy does it really take to travel? Does long legs really make a difference?

Dr. Herman Pontzer, associate professor of physical anthropology, developed a mathematical model for calculating energy consumption for bipedal and quadruped animals. His research is published in the recent edition of The Journal of Experimental Biology.

Picture 1 of Beneficial long legs like?
(Photo: Washington University in St. Louis) 'When everything is balanced, the length of the leg is one of the main determinants of energy consumption,' said Dr. Pontzer. 'If two animals are the same except for the length of the leg, then the animal with longer legs will be more effective.'

Fossil records suggest that, two million years ago, there was a huge increase in the length of the legs in prehistoric people. Dr. Pontzer said that one reason for this increase may be energy savings because they have longer legs than other animals. 'If you increase the distance you travel every day, you can expect that evolution will impact your walking performance,' he said.

'That way, the energy you save when traveling can be spent on survival and reproduction.' Dr. Pontzer's model is an equation capable of predicting walking and jogging . The important thing is, this model predicts that the level of power generation - and hence the level of energy use - is related to the length of the leg. Long legs mean less force and less energy consumption.

To test his equation, Dr. Pontzer put people, goats and dogs on a treadmill in his laboratory and measured the amount of oxygen used during travel and running at different speeds. He discovered that this model is capable of explaining more than one variation in motor consumption compared to other predictors, including contact time and body weight, which is Show that this model is suitable for four-legged animals as well as two legs.

Thanh Van

According to Washington University in St. Louis, Dong Nai Department of Science and Technology

Update 18 December 2018
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