Chimney Falls: Why & Where? What's the Mystery of Gravity?

  • Thread starter Thread starter Khaled332
  • Start date Start date
AI Thread Summary
When a tall chimney falls, it typically breaks at a point along its length due to the differing forces acting on it, particularly compressive and side-to-side forces. The construction material significantly influences the behavior of the fall, with solid concrete and brick chimneys reacting differently. A notable phenomenon during the fall is that the base of the chimney may "hop" into the air, which is attributed to internal stresses and gravitational acceleration. This "hop" occurs as the top half of the chimney exerts pressure on the bottom half, leading to a negative force at the base just before impact. Understanding these dynamics reveals the complexities of chimney collapses and the physics involved.
Khaled332
Messages
6
Reaction score
0
When a tall chimney falls, it usually breaks in two at some point along its length. Why doesn’t it fall in one piece? Where will the break occur? Will the chimney bend towards or away from the ground after the break? If the chimney does not break, something even stranger may occur: the base of the chimney may hop into the air during the fall. How can it do this seemingly against gravity?
 
Physics news on Phys.org
The characteristics of a chimney falling will be very dependent on its construction. A solid concrete one can act way different than a brick one (I'm assuming you're talking about factory-sized ones, not house-sized).

I'm not sure what you mean about the "hop". Can you be more descriptive about a specific instance?
 
I am talking about factory sized chimneys indeed, and I am wondering how BOTH solid concrete chimney and brick chimney would act when they fall. When the base of the chimney hops into the air during free fall I am thinking that wind resistance and gravitational accelration causing large internal stress result in the chimney breaking before it even makes an impact on the ground. Thanks
 
Khaled332 said:
I am talking about factory sized chimneys indeed, and I am wondering how BOTH solid concrete chimney and brick chimney would act when they fall. When the base of the chimney hops into the air during free fall I am thinking that wind resistance and gravitational accelration causing large internal stress result in the chimney breaking before it even makes an impact on the ground. Thanks

I still have no idea what you are talking about on this "hop" thing.
 
do you have some videos that show some examples?
 
The 'hop' must be something to do with a (transverse) wave that is set up as the chimney hits the ground progressively along its length.
When comic actors fall over backwards, their feet always go up in the air, too.
 
Khaled332 said:
When a tall chimney falls, it usually breaks in two at some point along its length. Why doesn’t it fall in one piece? Where will the break occur? Will the chimney bend towards or away from the ground after the break? If the chimney does not break, something even stranger may occur: the base of the chimney may hop into the air during the fall. How can it do this seemingly against gravity?
Chimneys are built to withstand great compressive forces along their length, but not that strong of the side-to-side forces. When it falls over, to move at constant angular velocity along its entire length, the end of the chimney must experience much greater acceleration than the middle, and the bottom is almost stationary. This puts the stress on the chimney as if the middle is being pulled down, while the top and bottom are being pulled up. So no wonder that the chimney snaps more often than not.

The hop part is trickier, I have a thought on this, but I'm going to need to write it up and see if what I think happens actually makes any sense.
 
Ok, this took a while, so I hope it helps clear it up a little.

Keeping in mind that the chimney does break in half, let's model it as two rigid halves connected by a joint. The joint will be allowed to rotate freely to simulate breaking point. Keep in mind that this will greatly exaggerate the result. So the first image attached is an animation showing the simulated tower collapsing. Tendency to snap in half is absolutely clear. Second image is the plot of the force required to support the tower at the base. The initial spike is from the model settling in. From there, the force stays fairly level for a while, and then decreases as the tower leans and collapses. Finally, right before the tower crashes into the ground, something interesting happens. The force goes negative. That means that the bottom of the tower tries to "hop" into the air, and my constraint, requiring that the tower stays planted, is not letting it.

It's not perfectly clear to me why this happens. I suspect, the top half pressing down on the far end of the bottom half causes this, but I'm not sure how the top half ends up moving in such a way as to cause that. Either way, this is purely an outcome of tower segments being fairly rigid and interacting with each other.
 

Attachments

  • Tower.gif
    Tower.gif
    41 KB · Views: 626
  • Tower.png
    Tower.png
    2 KB · Views: 352
Thank you so much K^2 your knowledge is much appreciated.
 

Similar threads

I Chimney vs building demolition physics
Replies
9
Views
3K
How Do You Calculate the Speed of a Falling Chimney's Center of Mass?
Replies
16
Views
3K
Gravity and Rotation: Will the Top Segment Reach the Ground First?
Replies
11
Views
6K
Falling chimney internal torque
Replies
2
Views
4K
B How Does Gravity Influence Energy Production in Hydroelectric Generators?
Replies
11
Views
1K
Work and Rotational Kinetic Energy (Falling Chimney)
Replies
1
Views
3K
I How to Land a Tree Flat in 3/4 Rotation: Solving the Equations
Replies
19
Views
2K
B Is this explanation of gravity under General Relativity legit?
Replies
23
Views
3K
Group I/II Metal oxides always basic in aqueous solution -- why?
Replies
3
Views
2K
I Aviation safety plane crash question/idea
Replies
18
Views
2K

Hot Threads

Recent Insights

Back
Top