Editing Biomechanics (section)

=== Renaissance ===

<!--[[Galen]] (129 AD – 210 AD), physician to Marcus Aurelius, wrote his famous work, ''On the Function of the Parts'' (about the human body). This would be the world's standard medical book for the next 1,400 years.--><!--so how is that biomech?-->
The next major biomechanic would not be around until the 1490s, with the studies of human anatomy and biomechanics by [[Leonardo da Vinci]]. He had a great understanding of science and mechanics and studied anatomy in a mechanics context. He analyzed muscle forces and movements and studied joint functions. These studies could be considered studies in the realm of biomechanics. [[Leonardo da Vinci]] studied anatomy in the context of mechanics. He analyzed muscle forces as acting along lines connecting origins and insertions, and studied joint function. Da Vinci is also known for mimicking some animal features in his machines. For example, he studied the flight of birds to find means by which humans could fly; and because horses were the principal source of mechanical power in that time, he studied their muscular systems to design machines that would better benefit from the forces applied by this animal.<ref name="Mason">{{cite book|title=A History of the Sciences |url=https://archive.org/details/historyofscience00maso |url-access=registration |last=Mason|first=Stephen |publisher=Collier Books|year=1962|location=New York, NY|page=[https://archive.org/details/historyofscience00maso/page/550 550]}}</ref>

In 1543, Galen's work, On the Function of the Parts was challenged by [[Andreas Vesalius]] at the age of 29. Vesalius published his own work called, On the Structure of the Human Body. In this work, Vesalius corrected many errors made by Galen, which would not be globally accepted for many centuries. With the death of Copernicus came a new desire to understand and learn about the world around people and how it works. On his deathbed, he published his work, On the Revolutions of the Heavenly Spheres. This work not only revolutionized science and physics, but also the development of mechanics and later bio-mechanics.<ref name="asbweb.org"/>

[[Galileo Galilei]], the father of mechanics and part time biomechanic was born 21 years after the death of [[Nicolaus Copernicus|Copernicus]]. Over his years of science, Galileo made a lot of biomechanical aspects known. For example, he discovered that &nbsp;"animals' masses increase disproportionately to their size, and their bones must consequently also disproportionately increase in girth, adapting to loadbearing rather than mere size. The bending strength of a tubular structure such as a bone is increased relative to its weight by making it hollow and increasing its diameter. Marine animals can be larger than terrestrial animals because the water's buoyancy relieves their tissues of weight."<ref name="asbweb.org"/>

[[Galileo Galilei]] was interested in the strength of bones and suggested that bones are hollow because this affords maximum strength with minimum weight. He noted that animals' bone masses increased disproportionately to their size. Consequently, bones must also increase disproportionately in girth rather than mere size. This is because the bending strength of a tubular structure (such as a bone) is much more efficient relative to its weight. Mason suggests that this insight was one of the first grasps of the principles of [[Engineering optimization|biological optimization]].<ref name="Mason" />

In the 17th century, [[Descartes]] suggested a philosophic system whereby all living systems, including the human body (but not the soul), are simply machines ruled by the same mechanical laws, an idea that did much to promote and sustain biomechanical study.