Did Galileo Really Drop Balls from the Leaning Tower of Pisa?

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Discussion Overview

The discussion centers on the historical account of Galileo's experiments regarding the independence of falling object speed from mass, specifically questioning the validity of the story about dropping balls from the Leaning Tower of Pisa. Participants explore the implications of gravity, mass, and air resistance in this context.

Discussion Character

  • Exploratory, Debate/contested, Historical

Main Points Raised

  • One participant expresses confusion about why a heavier object does not fall faster, referencing the formula F = mg and questioning the implications of gravitational force.
  • Another participant clarifies that while the force of gravity is greater for heavier objects, they also have greater inertia, leading to the conclusion that all objects fall with the same acceleration in a vacuum.
  • A later reply raises the consideration of air resistance, suggesting that the cannonball might reach the ground first if air resistance were significant.
  • Another participant argues that the traditional story of Galileo's experiment is likely fictitious and that he may have conducted experiments using angled ramps to minimize air resistance.

Areas of Agreement / Disagreement

Participants do not reach a consensus on the historical accuracy of Galileo's experiments or the impact of air resistance, indicating multiple competing views remain on these points.

Contextual Notes

The discussion includes assumptions about the conditions of the experiments, such as the neglect of air resistance and the historical context of Galileo's methods, which remain unresolved.

smt22
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Following text:

"Galileo Galilei is supposedly the first one to prove that the speed of a falling
object is independent of its mass. He did this by demonstrating that a 100 pound
cannonball and a one pound ball dropped at the same time from the Leaning
Tower of Pisa reached the ground at the same time. The acceleration of gravity
is therefore independent of mass."

I have never really understood why it hits the floor at the same time. When I look at the formula F = mg, I would say the force of gravity is greater for the 100 pound ball, so why does it not fall faster? Let's also assume that it's performed in vacuum.
 
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you've got that equation right.

F=mg

With F Being the force of gravity on the object. However, the 100 pound ball is harder to accelerrate than the 1 pound ball. That can be expressed as

F=ma

Where F is the force on the object, and a is the acceleration of the object. All you must do is set these forces equal to each other.

mg=ma

divide by m.

g=a.

So any object, neglecting air resistance will fall with an acceleration of g under Earth's gravity.
 
Thanks, I fully understand now.
 
But considering air resistance, shouldn't the cannonball in Galileo's story reach the ground first? Did they modify the story or wasn't it noticeable?
 
It probably wasn't noticeable, but as far as I know the "Leaning Tower of Pisa Stories" are entirely fictitious, and the experiments were actually performed using angled ramps to the same effect, but reducing the impact of air resistance.
 

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