What is the tension in the center of the rope in a tug-of-war?

  • Thread starter Thread starter SnackMan78
  • Start date Start date
  • Tags Tags
    Tension
AI Thread Summary
In a tug-of-war with two teams of five members each pulling with an average force of 500N, the tension in the center of the rope is debated. One perspective suggests that the total force exerted by one team is 2500N, leading to a total tension of 5000N when both teams are considered. However, since the forces are equal and opposite, the net external force on the rope is zero, indicating equilibrium. Despite this, the internal tension in the rope remains significant due to the opposing forces. The discussion emphasizes the distinction between net force and internal tension in the context of equilibrium.
SnackMan78
Messages
5
Reaction score
0
Textbook question: In a tug-of-war, each man on a 5-man team pulls with an avg force of 500N. What is the tension in the center of the rope?

Is the answer 2500N because each mans force is added together, or since the question uses avg, is the answer 500N? OR am I wrong with both conclusions?
 
Physics news on Phys.org
Seems like 2500N, unless I'm missing something.
 
Yes its 2500 the average force they each pull with is 500. you have to combine them all to find the net force because it asks for tension.
 
Is there only one team, or two pulling against each other? If the latter is true then the answer should be double.
 
daniel_i_l said:
Is there only one team, or two pulling against each other? If the latter is true then the answer should be double.

I agree. EACH team member exerts 500 N, so one team exerts 2500 N. Thus if there are two teams we have 2*2500 N = 5000 N on the rope.

-Dan
 
Wouldn't the net force actually be zero. Each team is applying an average force of 2500N but in opposite directions thus the net force in the center of the rope would be 2500N-2500N = 0.
 
what would be the tension in the rope that has M mass hanging on its both ends, and goes through a pulley?

I got Mg

T-Mg=0
Mg-T=0
subtract them.
 
If team A pulls on one end with a force, and team B pulls on the other end with an equal but opposite force, there is no net external force on the rope; thus, the rope is in equilibrium (F_net = 0). However, that does not imply that the internal force in the rope is 0. That rope is being strained tremendously, and if it could feel pain, it'd know that the force on it would be greater than 0. So is it 500, 2500, or 5000? Draw a free body diagram around the left side of the rope that cuts thru its center to find the result, noting that F_net=0.
 

Similar threads

Tension in the rope of tug of war
Replies
1
Views
5K
What is the tension force in a tug-of-war between two teams?
Replies
6
Views
5K
Which Rope Sustains Greater Tension: Tree or Tug-of-War?
Replies
2
Views
6K
How to find tension in a rope when given the force?
Replies
4
Views
9K
Monkey accelerating up and down a rope
Replies
38
Views
4K
Tension in a String/Rope (tug-of-war)
Replies
14
Views
3K
Confusion regarding surface tension direction and force balance
Replies
39
Views
2K
Tug-of-war with competing decay of force equations
Replies
5
Views
2K
Tension in Ropes: Solving Forces on Trunk
Replies
7
Views
5K
What force is needed to break a rope?
Replies
8
Views
2K

Hot Threads

Recent Insights

Back
Top