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This Concept Map, created with IHMC CmapTools, has information related to: Why do things move Group 3, An object's resistance to ∆ motion Force pushes it Why do things move?, Inertia is An object's resistance to ∆ motion, Equations for Newton's Laws 1 & 2 F=ma, Net force Is measured in Newtons, Newton's Second Law They show the accuracy of Why do things move?, Newton's first law An example of an object at rest is A tissue box sitting there, Acceleration How fast an object moves Why do things move?, kg Abbreviation for Kilograms, Equations for Newton's Laws 1 & 2 a=F/m, An object in motion or at rest or motion will stay that way unless an unbalanced force acts upon it Like Someone getting in the way of a bowling bowl rolling on a frictionless surface, Newton's Second Law Equation is F=ma, Equations for Newton's Laws 1 & 2 Newton's first law, The more force on an object the more it accelerates, but the more mass it has, the more it resists acceleration Like when Both objects are being pushed with 200 newtons of force, but the one that is 600kg is accelerating slower than the object that weighs 60g, Equations for Newton's Laws 1 & 2 m=F/a, Acceleration Unit is m/s2, Someone getting in the way of a bowling bowl rolling on a frictionless surface But when there is nothing stopping it, Someone sliding, m/s2 An object's resistance to ∆ motion, Newton's first law States that An object in motion or at rest or motion will stay that way unless an unbalanced force acts upon it, Newton's first law Precedes his second Newton's Second Law, Terminal velocity is when An object no longer accelerates, remaining at whatever velocity it was already traveling or else slowing down.