Hourglass Weight: How Sand Weight Changes

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Weight is defined as W=mg, indicating that it should change based on the mass and gravitational force acting on the hourglass. As sand falls, some argue that the hourglass's weight diminishes due to the sand being in free fall. However, this perspective is challenged, as the weight measurement during the sand's descent is influenced by the motion of both the sand and the hourglass itself. The discussion highlights that the weight reading is not simply about static weight but involves complex dynamics. A diagram illustrating these concepts was requested to clarify the relationship between the falling sand and the hourglass's weight.
walter1998
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How does an hourglass's weight change while sand is dripping in it? (better be in a diagram)
 
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Start by saying what you think "weight" is and why it should be changing.
 
voko said:
Start by saying what you think "weight" is and why it should be changing.
W=mg that is what weight is. I think that when the sands are falling it is a kind of free fall; so some of the hourglasses's weight should diminish.
 
walter1998 said:
W=mg that is what weight is

OK.

walter1998 said:
I think that when the sands are falling it is a kind of free fall; so some of the hourglasses's weight should diminish.

There is nothing about falling, free or otherwise, or not falling at all, in the definition above. Why should the weight change then?
 
That experiment does not measure the weight as you defined it in #3.
 
OK then, whatever it is just explain it!
 
The truth is that experiment measures the tilt of the scales (which they call "weight reading"), and nothing else.

They explain why that "reading" is different from the static case. The details are complicated, and depend not only on the motion of the sand, but on the motion of the pans, too.
 
voko said:
The truth is that experiment measures the tilt of the scales (which they call "weight reading"), and nothing else.

They explain why that "reading" is different from the static case. The details are complicated, and depend not only on the motion of the sand, but on the motion of the pans, too.
Can you demonstrate it in a diagram?or give a link of it?
 
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You're pretty demanding for someone with no bargaining leverage. :oldgrumpy:
 
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I've never actually heard of this particular question before, but it is really reminiscent of the one about jumping in an elevator or birds flying inside a truck.
 

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