In the 14th century, Jean Buridan postulated the notion of motive force, which he named impetus. Buridan gives his theory a mathematical value: impetus = weight x velocity. Buridan's pupil
Dominicus de Clavasio in his 1357
De Caelo, as follows: Buridan's position was that a moving object would
only be arrested by the resistance of the air and the weight of the body which would oppose its impetus. Buridan also maintained that impetus was proportional to speed; thus, his initial idea of impetus was similar in many ways to the modern concept of
momentum. Buridan saw his theory as only a modification to Aristotle's basic philosophy, maintaining many other
peripatetic views, including the belief that there was still a fundamental difference between an object in motion and an object at rest. Buridan also maintained that impetus could be not only linear, but also circular in nature, causing objects (such as celestial bodies) to move in a circle. Buridan pointed out that neither Aristotle's
unmoved movers nor Plato's souls are in the Bible, so he applied impetus theory to the eternal rotation of the
celestial spheres by extension of a terrestrial example of its application to rotary motion in the form of a rotating millwheel that continues rotating for a long time after the originally propelling hand is withdrawn, driven by the impetus impressed within it. He wrote on the celestial impetus of the spheres as follows: However, by discounting the possibility of any resistance either due to a contrary inclination to move in any opposite direction or due to any external resistance, he concluded their impetus was therefore not corrupted by any resistance. Buridan also discounted any inherent resistance to motion in the form of an inclination to rest within the spheres themselves, such as the inertia posited by
Averroes and Aquinas. For otherwise that resistance would destroy their impetus, as the anti-Duhemian historian of science Annaliese Maier maintained the Parisian impetus dynamicists were forced to conclude because of their belief in an inherent
inclinatio ad quietem or inertia in all bodies. This raised the question of why the motive force of impetus does not therefore move the spheres with infinite speed. One impetus dynamics answer seemed to be that it was a secondary kind of motive force that produced uniform motion rather than infinite speed, rather than producing uniformly accelerated motion like the primary force did by producing constantly increasing amounts of impetus. However, in his
Treatise on the heavens and the world in which the heavens are moved by inanimate inherent mechanical forces, Buridan's pupil Oresme offered an alternative
Thomist inertial response to this problem. His response was to posit a resistance to motion inherent in the heavens (i.e. in the spheres), but which is only a resistance to acceleration beyond their natural speed, rather than to motion itself, and was thus a tendency to preserve their natural speed. Buridan's thought was followed up by his pupil Albert of Saxony (1316–1390), by writers in Poland such as
John Cantius, and the
Oxford Calculators. Their work in turn was elaborated by
Nicole Oresme who pioneered the practice of demonstrating laws of motion in the form of graphs. ==The tunnel experiment and oscillatory motion==