What Happens to the Sand Bag When Andrew Climbs the Rope?

AI Thread Summary
The discussion revolves around a physics problem involving an athlete climbing a rope with a sandbag of equal weight placed nearby. Participants debate whether the sandbag will move as the athlete climbs, with some suggesting it will shift up and down based on the athlete's speed. Others argue that the bag remains stationary due to static equilibrium, emphasizing that the forces acting on the athlete balance out. The ambiguity of the problem is highlighted, particularly regarding the placement and attachment of the sandbag and the potential involvement of a frictionless pulley. Ultimately, clarification on the problem's details is necessary for a definitive conclusion.
svtec
Messages
22
Reaction score
0
Newton's laws?

there is an athlete climbing a rope in gym class. he gets to a point halfway up the rope and is stationary. someone puts a bag of sand that is equal in weight to the athlete. they are both static and then the athlete starts to climb the rope, slowing and speeding up at random intervals.

what happens to the bag of sand as he climbs?

i was thinking that the bag of sand would move up a little bit as he was climbing slower and then down as he is climbing faster?

am i right, or would the bag of sand stay at rest because they are the same weight?

i'm thinking the first one...


tia...


-andrew
 
Physics news on Phys.org


Originally posted by svtec
there is an athlete climbing a rope in gym class. he gets to a point halfway up the rope and is stationary. someone puts a bag of sand that is equal in weight to the athlete. they are both static and then the athlete starts to climb the rope, slowing and speeding up at random intervals.
Why do you think the bag will move up and down? (except for the shaking of the rope as he climbs) And what does the weight of the sand have to do with it?
 
i think the problem is trying to imply that the bag is equal in weight to the athlete, implying that they are in static equilibrium initially. the problem states it explicitly and that is why i referred to it. thanks...


-andrew
 
i think as the climber reached the apex of the climb the bag would approach the floor.


-andrew
 
Originally posted by svtec
i think the problem is trying to imply that the bag is equal in weight to the athlete, implying that they are in static equilibrium initially. the problem states it explicitly and that is why i referred to it.
I'd be curious to see the exact statement of the problem. The bag doesn't have to be equal in weight to the athlete for there to be static equilibrium. Think about it: the athlete hangs from the rope; he's in static equilibrium because the forces on him (the rope pulling up on him & his weight pulling down on him) balance. No bag of sand needed.
 
Originally posted by svtec
i think as the climber reached the apex of the climb the bag would approach the floor.
We must be thinking of totally different situations. How is the bag attached to the rope? How is the rope attached to the ceiling? Is there a pulley involved?

I see no reason for the end of the rope to move---sandbag or not---as the man climbs up or down. (Ignoring the stretching of the rope.)
 
i know. it seems that this problem has a case of ambiguity. i have given you the problem in its entirety leaving out some superfluous information, such as him, what, etc.

i just wanted to see if anyone else could make sense of it.

i would think that there would have to be a pulley involved, but it does not state it.

-andrew
 
"someone puts a bag of sand that is equal in weight to the athlete"

WHERE was the bag of sand put?? Was that part of the "superflous information" you left out?

Was it attached to the climber?

Was it tied on at the end of the rope?

Was it tied to the other end of the rope after running it to a pulley? (Since the top of the rope was clearly attached to something when he began to climb, I would find that hard to accept.)

Was it set on the floor next to the rope?
 
edit:

today she said in class that she left out the part about the frictionless pulley.

this makes the problem a little more reasonable.
 
  • #10
Originally posted by svtec
today she said in class that she left out the part about the frictionless pulley.
Ah... just as Halls and I suspected. So, why not take another crack at describing the exact problem and what you think the answer is. And---most importantly---why you think what you think. :smile:
 

Similar threads

What Happens to the Bananas When a Monkey Climbs the Rope?
Replies
1
Views
3K
How Will the Body Move When the Monkey Climbs the Rope?
Replies
1
Views
2K
Are Einstein's and Newton's Laws of Physics in Conflict?
Replies
21
Views
4K
Understanding Momentum Conservation in Isolated Systems
Replies
19
Views
6K
ECONOMICS: It's stupid to be afraid (Lee Kuan Yew to Der Spiegel)
Replies
6
Views
4K

Hot Threads

Recent Insights

Back
Top