Sketch the scenario of a book sitting on a table from Data Table 1. Draw arrows representing the relevant forces on the sketch and an additional arrow showing the acceleration if necessary.

Sketch the scenario of a man pushing a box across a frictionless floor from Data Table 1. Draw arrows representing the relevant forces on the sketch and an additional arrow showing the acceleration if necessary.

Sketchthe scenario of air inside and outside of a balloon from Data Table 1. Draw arrows representing the relevant forces on the sketch if necessary.

Data Table 1: Net Force and Newton's Laws Scenario A book sitting on a table A DUCK sliding across frictionless IGS A child sitting on a merry-go round turning at constant speed A man leaning against a wall A l'OGK railing at constant terminal VSIOGIIY A car driving around a curve at a constant speed of 40 mph A man pushing a D0)! across a frictionless surface A SOCDSI' DSII placed on the grass Air inside and outside or an inated balloon Net Force Net Force Newton's Law Law Explanation Explanation 0 The net force on a this scenario an object at rest book sitting on a table is equal to the grayitational force on the book. follows Newton's first lawI of motion (law of tends to stay at rest. and an object in motion tends to stay in motion with the same speed and in the same direction unless it is acted upon by E A puck sliding across frictionless ice has a net force of zero this scenario follows Newton's first law of motion (law of an object at rest tends to stay at rest, and an object in motion tends to stay in motion with the same speed and in the same direction unless it is acted upon by no nzero E A child sitting on a merrygo-round turning at constant speed has a net force of zero this scenario follows Newton's first law of motion (law of an object at rest tends to stay at rest. and an object in motion tends to stay in motion with the same speed and in the same direction unless it is acted upon by A man leaning against a wall has a net force equal to the gravitational force on him and the force of the wall against him this scenario follows Newton's third law of motion {law of action and for every action, there is an equal and opposite reaction. E E A rock falling at constant terminal velocity has a net force equal to the gravitational force on it and the air resistance force against it this scenario follows Newton's second law of motion. the acceleration of an object is directly proportional to the force applied to it and inversely proportional to non 0 E The net force acting on the car driving around a curve at a constant speed of 40 mph is the sum of the centripetal force and the frictional force, both of which work to keep the car in its This scenario demonstrates Newton's First an object will stay at rest or in motion at a constant velocity unless acted upon by an non zero E The net force acting on the man pushing a box across a frictionless surtace Is the sum of the force applied by the man and the force ofthe box's This scenario demonstrates Newton's Third which states that for every action, there is an equal and opposite reaction. E The net force acting on the soccer ball placed on the grass is the sum ofthe ball's weight and the normal force exerted by the This scenario demonstrates Newton's Second Law the acceleration or an object is directly proportional to the net force acting on it and inversely E The net force acting on the air inside and outside of an inflated balloon is the sum of the pressure exerted by the air inside the balloon and the atmospheric pressure outside This scenario demonstrates the principle of pressure the pressure of a gas is equal in all directions and is determined by the force exerted on a unit 01 area