Accelerate Your Success with Newton's Second Law of Motion

How can Newton's second law of motion help us understand acceleration?

Newton's second law of motion states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. With this in mind, let's explore a scenario involving a man and a woman on an ice rink.

Understanding Acceleration with Newton's Second Law of Motion

Newton's second law of motion provides a fundamental insight into how objects move and accelerate in response to external forces. The law can be expressed as:

a = F / m

Where:

  • a is the acceleration of the object,
  • F is the net force acting on the object, and
  • m is the mass of the object.

In the scenario given, the woman pushes the man with a horizontal force of 85 N in the positive x-direction. The man's mass is 75 kg. With this information, we can calculate the man's acceleration using Newton's second law of motion.

Calculating Acceleration

By applying Newton's second law of motion to the scenario, we can determine the man's acceleration as follows:

Given:

  • Net force (F) = 85 N
  • Mass (m) = 75 kg

Using the formula a = F / m, we find:

a = 85 N / 75 kg = 1.13 m/s²

Therefore, the man's acceleration is approximately 1.13 meters per second squared in the positive x-direction. This means that he is moving with an acceleration of 1.13 m/s² due to the force applied by the woman.

Understanding acceleration in this context provides insight into how objects respond to external forces and how their motion changes accordingly. Newton's second law of motion is a powerful tool for analyzing and predicting the behavior of objects in motion.

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