All changes saved Evaluate the following descriptions of Newton's laws of motion and choose the one that best describes Newton's first law of motion. O In a football game, the ball will remain motionless on the field of play until it is acted upon by a force greater than the forces keeping it motionless. This is an example of the law of inertia, which states that an object at rest will remain at rest, and an object in motion will remain in motion, unless acted upon by an unbalanced force, or forces. A car enters the freeway and begins to accelerate and merge into traffic. As the accelerator pedal is pressed, the force acting on the car can be calculated by finding the product of its mass and acceleration. f m x a The mass of a plane accelerating down a runway at a rate of 200 meters per second, squared, requires a certain amount of force in order to move it, which can be calculated by solving the equation: f =mx a. You bounce a basketball off the court and begin to dribble. When the ball is set in motion toward the floor, it bounces because the force of the floor acts on the ball in an equal and opposite direction.

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All changes saved 3. Evaluate the following descriptions of Newton's laws of motion and choose the one that best describes Newton's first law of motion. In a football game, the ball will remain motionless on the field of play until it is acted upon by a force greater than the forces keeping it motionless. This is an example of the law of inertia, which states that an object at rest will remain at rest, and an object in motion will remain in motion, unless acted upon by an unbalanced force, or forces. A car enters the freeway and begins to accelerate and merge into traffic. As the accelerator pedal is pressed, the force acting on the car can be calculated by finding the product of its mass and acceleration. f = m x a The mass of a plane accelerating down a runway at a rate of 200 meters per second, squared, requires a certain amount of force in order to move it, which can be calculated by solving the equation: f = m x a. You bounce a basketball off the court and begin to dribble. When the ball is set in motion toward the floor, it bounces because the force of the floor acts on the ball in an equal and opposite direction.