A force pair is produced when a tennis racket strikes a tennis ball. Which of the following best explains why the tennis ball does not have zero net force acting on it? The forces act perpendicular to each other. The two forces act in the same direction. The force exerted on the ball is greater than that exerted on the racket. Each half of the force pair acts on a different object.
Question
A force pair is produced when a tennis racket strikes a tennis ball. Which of the following best explains why the tennis ball does not have zero net force acting on it? The forces act perpendicular to each other. The two forces act in the same direction. The force exerted on the ball is greater than that exerted on the racket. Each half of the force pair acts on a different object.
Solution
The best explanation for why the tennis ball does not have zero net force acting on it when struck by a tennis racket is that "Each half of the force pair acts on a different object." This is a direct application of Newton's Third Law of Motion, which states that for every action, there is an equal and opposite reaction.
When the racket strikes the ball, the racket exerts a force on the ball, and the ball exerts an equal and opposite force on the racket. These forces are a force pair. However, they do not cancel each other out to result in a net force of zero on the ball because they are acting on different objects. The force exerted by the racket acts on the ball, accelerating it and changing its direction, while the force exerted by the ball acts on the racket.
Therefore, the statement "Each half of the force pair acts on a different object" best explains why the tennis ball does not have zero net force acting on it.
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