Weight required to hang straight down with known torque

  • Context: Undergrad 
  • Thread starter Thread starter MoMan
  • Start date Start date
  • Tags Tags
    Torque Weight
Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
8 replies · 2K views
MoMan
Messages
1
Reaction score
1
How much Weight (W) is required to keep a weight hanging straight down when the torque is known on a rotating shaft? Please see attached image. Assume a lever weight of zero to keep it simple.
Weight calculator.jpg
 
Last edited:
  • Wow
Likes   Reactions: Delta2
on Phys.org
MoMan said:
it simple

Yeah, ##\infty##
 
  • Like
  • Wow
Likes   Reactions: russ_watters, nasu, Lnewqban and 2 others
MoMan said:
How much Weight (W) is required to keep a weight hanging straight down when the torque is known on a rotating shaft? Please see attached image. Assume a shaft weight of zero to keep it simple.View attachment 303451
Suppose that the shaft is deflected so that it does not hang straight down. Suppose that it is deflected by ##x## meters rightward, for instance. Do you know how to calculate how much restoring torque results from gravity pulling on the deflected weight?

There is a simple answer to the question you ask. But the Physics Forums way is to guide you into discovering that answer for yourself.
 
  • Like
Likes   Reactions: Delta2
What's the application ?
 
Last edited:
  • Like
Likes   Reactions: russ_watters
The way to answer this question with infinities: The torque of weight around the central point of the shaft is ##T_W=W\cdot 1m\cdot \sin 0##. For any finite W this equals to zero and hence the total torque will be equal to the torque from shaft and it will rotate the weight.
However if ##W=\infty## then $$T_W=\infty\cdot 0=\text {maybe something finite and equal to -}T_{shaft}$$ and hence for infinite weight the system might not rotate.
 
  • Like
Likes   Reactions: Lnewqban
hmmm27 said:
What's the application ?
It's either a puzzle (and not a very good one, IMO), or he's just trolling.
 
  • Like
Likes   Reactions: Delta2 and jbriggs444
At what point do macro scale accelerations become imperceptible? Can we not effectively consider the rotation of ##0.1 ^{\circ}## over 10 years as effectively no acceleration. We do this kind of thing all the time in our modeling.
 
erobz said:
At what point do macro scale accelerations become imperceptible? Can we not effectively consider the rotation of ##0.1 ^{\circ}## over 10 years as effectively no acceleration. We do this kind of thing all the time in our modeling.
Well after the point at which suspended weights break the mechanism.
 
  • Wow
  • Haha
Likes   Reactions: Delta2 and erobz
$$m=\frac\tau{\mu_s{rg}}$$
 
Last edited: