<P> According to Aristotle, weight was the direct cause of the falling motion of an object, the speed of the falling object was supposed to be directly proportionate to the weight of the object . As medieval scholars discovered that in practice the speed of a falling object increased with time, this prompted a change to the concept of weight to maintain this cause effect relationship . Weight was split into a "still weight" or pondus, which remained constant, and the actual gravity or gravitas, which changed as the object fell . The concept of gravitas was eventually replaced by Jean Buridan's impetus, a precursor to momentum . </P> <P> The rise of the Copernican view of the world led to the resurgence of the Platonic idea that like objects attract but in the context of heavenly bodies . In the 17th century, Galileo made significant advances in the concept of weight . He proposed a way to measure the difference between the weight of a moving object and an object at rest . Ultimately, he concluded weight was proportionate to the amount of matter of an object, and not the speed of motion as supposed by the Aristotelean view of physics . </P> <P> The introduction of Newton's laws of motion and the development of Newton's law of universal gravitation led to considerable further development of the concept of weight . Weight became fundamentally separate from mass . Mass was identified as a fundamental property of objects connected to their inertia, while weight became identified with the force of gravity on an object and therefore dependent on the context of the object . In particular, Newton considered weight to be relative to another object causing the gravitational pull, e.g. the weight of the Earth towards the Sun . </P> <P> Newton considered time and space to be absolute . This allowed him to consider concepts as true position and true velocity . Newton also recognized that weight as measured by the action of weighing was affected by environmental factors such as buoyancy . He considered this a false weight induced by imperfect measurement conditions, for which he introduced the term apparent weight as compared to the true weight defined by gravity . </P>

A body loses its weight when taken from earth to moon due to