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If an object is undergoing a constant force, you can find its acceleration by applying Newton's second law of motion. Newton's second law states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. Mathematically, it can be expressed as:

F_net = m * a

Where:

  • F_net represents the net force acting on the object.
  • m represents the mass of the object.
  • a represents the acceleration of the object.

To find the acceleration of an object undergoing a constant force, follow these steps:

  1. Determine the net force: Identify the total force acting on the object. This can be a single force or the vector sum of multiple forces acting on the object.

  2. Determine the mass: Find the mass of the object. The mass is a property of the object and can often be given in the problem statement or measured directly.

  3. Apply Newton's second law: Use the equation F_net = m * a and rearrange it to solve for acceleration:

    a = F_net / m

    Substitute the values for the net force and mass into the equation, ensuring that the units are consistent. The resulting value will be the acceleration of the object.

It's important to note that this applies specifically to situations where the net force acting on the object remains constant. If the force changes over time or varies with the object's position or velocity, more complex calculations may be required, such as integrating the force equation or using differential equations.

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