Objects that are falling toward Earth in free fall move

a)faster and faster.
b)slower and slower.
c)at a constant velocity.
d)slower then faster.

There is a website you can go to call physics dot com. The answer should be there for you.

I think the answer is A according to what I read on that website I posted.

Take a look at it and see what you think?

The object has no interference when falling so it would seem logical it would get faster and faster. But physics is not a strong area for me.

a. faster and faster

Objects that are falling toward Earth in free fall move at a constant velocity.

The correct answer is (a) faster and faster.

When an object is falling toward Earth in free fall, it is experiencing the acceleration due to gravity. The acceleration due to gravity near the Earth's surface is approximately 9.8 m/s^2. This means that every second, the object's velocity increases by 9.8 meters per second.

To understand why the object moves faster and faster, we can break it down into two main factors:

1. Acceleration: The object is pulled downward by the force of gravity. This force causes the object to accelerate, meaning its velocity increases over time. Since the acceleration is constant, the velocity of the object increases by the same amount every second.

2. No opposing force: In free fall, there is no significant force resisting the motion of the falling object. In the absence of air resistance or any other force, the object can continue to accelerate without a decrease in velocity.

Therefore, as the object continues to fall, it gains velocity due to the acceleration caused by gravity. This results in the object moving faster and faster as it falls toward Earth.