Ignoring air resistance, an object falling near the surface of the Earth has an acceleration that is:

A. constant
B. increasing
C. decreasing
D. dependant on the weight of the object

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answer

Ignoring air resistance, an object falling near the surface of the Earth has an acceleration that is:

The correct answer is: A. constant.

To understand why the acceleration is constant, we need to know the basic principles of gravity. When an object falls near the surface of the Earth, it experiences a downward force called gravity. Gravity causes the object to accelerate, meaning its velocity (speed and direction) changes over time.

The acceleration due to gravity near the surface of the Earth is approximately 9.8 meters per second squared (abbreviated as m/s^2). This value is usually denoted by the symbol "g."

The key point to remember is that the acceleration due to gravity is constant near the surface of the Earth, regardless of the object's mass or weight. This means that all objects, regardless of their masses, fall with the same acceleration.

It is important to note that this explanation assumes no air resistance. In reality, air resistance affects the motion of objects, especially when they have a large surface area. But if we ignore air resistance, as stated in the question, then the correct answer is that the object's acceleration is constant.