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If a car starts off with zero velocity and we want it to accelerate uniformly at a constant rate, the force required to achieve this is given by Newton's second law of motion.

Newton's second law states that the force acting on an object is equal to the mass of the object multiplied by its acceleration. Mathematically, it can be written as:

F=m⋅aF = m cdot a

Where:

  • FF is the force acting on the car,
  • mm is the mass of the car, and
  • aa is the desired acceleration.

Since we want the car to accelerate uniformly at a constant rate, the acceleration aa will be constant.

Therefore, to cause the car to accelerate uniformly at a constant rate, we need to apply a force that is directly proportional to the desired acceleration and the mass of the car. The direction of the force should be in the same direction as the desired motion of the car.

It's important to note that in real-world scenarios, additional factors such as friction, air resistance, and the car's engine power may affect the actual acceleration of the car. However, assuming ideal conditions, a force that is directly proportional to the desired acceleration and the mass of the car would result in uniform acceleration.

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