Paper Title
BIOLOGICAL LEVERAGE IN HUMANS AND ANIMALS' SELF-MOVEMENT

Abstract
In Newtonian mechanics a mass at rest is supposed to accelerate upwards if it undergoes force greater than its gravity force or greater than its weight. The forces acting are the weight W downwards and the force F upwards, F-W= positive, then the force F is greater than the weight W. The net force F-W acting on the mass will be a vector force upwards. A mass can be accelerated upwards with force less than its weight using the leverage concept. In a lever the force at the load arm is still bigger than the load weight however the force at the effort arm can be less than the load weight. In this paper I explain with experimental evidence that a human body uses force less than the human body weight to accelerate upwards by means of the biological leverage. The experiment measures the maximum force that a human muscle can exert and shows that this maximum force is less than the human weight but it lifts the human. I also apply this biological leverage concept to the human body joints including the human spine long-term functionality. This theory applies to other living organisms here I focus on the human body specifically. Keywords - Biological Leverage, Muscles Force, Weight, Uplift, Self-Movement, Pressure