If you’ve ever thrown a bowling ball down a lane, you know that the ball moves without your input. That’s because it’s being pushed by gravity and its own weight, which creates resistance as it rolls down the lane toward pins. But what causes this motion? Why doesn’t your bowling ball just stand still? And why does it decelerate as it travels? In this article, we’ll answer all these questions!
Why Does A Bowling Ball Move Without Acceleration?
The bowling ball moves without acceleration because it is in free fall. This means that the bowling ball does not have any force acting on it, so there’s no need for an object to accelerate from rest when it falls down a hill.
The reason why this happens is because of Newton’s first law of motion: everybody must retain its state of rest or uniform motion unless acted upon by an external force.
In other words, if you were to drop your bowling ball off a cliff (or anywhere else), then even though your hands might be pushing forward with all their might as they try to stop its descent, nothing else will stop your fall until something external causes you to change direction—and nothing else can do that except gravity!
Why does a bowling ball decelerate as it travels?
Friction
The bowling ball is slowing down because of friction, which is caused by the movement of molecules rubbing against each other in the air. This friction causes a force that pushes down on the surface of your ball and slows it down.
As you throw your bowling ball forward, (How to throw bowling balls straight) there are certain gases in the atmosphere that acts like a windscreen for your ball as it travels through space—it acts as an invisible wall between you and where you want to go (if this were an actual physical obstruction, then we’d call it an “air curtain”).
Air resistance
Because their movement isn’t directly affected by gravity or any other external forces on them at all times during travel through space, these gases can cause drag on objects moving through them.
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They’ll push them away from where they want to go and thus slow down their speed when moving forward without another external force acting upon them such as gravity pulling them downward toward Earth’s center (which would also mean less friction).
What forces act on a bowling ball?
The gravitational force acts on the bowling ball. The bowling ball is at rest and has no acceleration, so it isn’t moving since it’s not accelerating.
Conclusion
In this article, we’ve discussed the reasons behind a bowling ball’s motion without mentioning acceleration. We know that it can be difficult to understand the physics behind bowling balls, but now you have a better understanding of what really happens when a ball is thrown!
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