Tags: How To Write An Audience Analysis PaperEssay About My Best Friend SpmRobert Frank Essay On InfluenceWays To Solve ProblemsBluest Eye ThesisPassion For Economics EssayEssay On Child ObservationShort Story AssignmentWhy Choose An Mba EssayCosta Rica History Essay
Aristotle believed that motionless objects on Earth, those composed mostly of the elements earth and water, to be in their natural place on the ground and that they will stay that way if left alone.
A fundamental error was the belief that a force is required to maintain motion, even at a constant velocity.
Most of the previous misunderstandings about motion and force were eventually corrected by Galileo Galilei and Sir Isaac Newton.
With modern insights into quantum mechanics and technology that can accelerate particles close to the speed of light, particle physics has devised a Standard Model to describe forces between particles smaller than atoms.
The Standard Model predicts that exchanged particles called gauge bosons are the fundamental means by which forces are emitted and absorbed.
Aristotle was aware of this problem and proposed that the air displaced through the projectile's path carries the projectile to its target.
This explanation demands a continuum like air for change of place in general.
This law is an extension of Galileo's insight that constant velocity was associated with a lack of net force (see a more detailed description of this below).
Newton proposed that every object with mass has an innate inertia that functions as the fundamental equilibrium "natural state" in place of the Aristotelian idea of the "natural state of rest".
It is measured in the SI unit of newtons and represented by the symbol F.
The original form of Newton's second law states that the net force acting upon an object is equal to the rate at which its momentum changes with time.