Calculating Minimum Breaking Tension for Vine Rope Swing

AI Thread Summary
To determine the minimum breaking tension of the vine rope for swinging across a hole, the scenario is analyzed as a centripetal force problem. The maximum tension occurs at the bottom of the swing, where gravitational potential energy converts to kinetic energy. The forces acting on the rope include gravitational force and centripetal force, with the maximum force calculated as F_max = mg(1 + 2sin(40)). For an 85 kg mass, this results in a maximum tension of approximately 1903 N. Understanding these forces is crucial for ensuring the rope does not break during the swing.
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A guy wishes to swing across a hole, using a vine rope. In order to reach the other side he must swing so that the rope makes a maximum angle of 40 degres to the vertical. Regarding the guy as an 85 kg point mass, what is the minimum breaking tension of the rope if the rope is not to break?
 
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b_phys28 said:
A guy wishes to swing across a hole, using a vine rope. In order to reach the other side he must swing so that the rope makes a maximum angle of 40 degres to the vertical. Regarding the guy as an 85 kg point mass, what is the minimum breaking tension of the rope if the rope is not to break?
When the man is swinging, what are the forces on the rope? Where are they maximum? What are the forces on the rope at that point?

AM
 
Crazy, is this a torque or like.. centripital force question?.. or.. haha sorry I'm trying to learn too.
 
This is a centripetal force question. You can use the following equations:

F = ma
a = v^2/r

KE is at a max at the bottom of the swing, PE is at a max at the starting point. so mgh = (1/2)mv^2.

You can calculate the height, but you need the length of the rope to figure that out.

I can't really think of a way to do this without the length of rope. If you have it, just use trig, get the h, plug it in.
 
dboy said:
This is a centripetal force question. You can use the following equations:

F = ma
a = v^2/r

KE is at a max at the bottom of the swing, PE is at a max at the starting point. so mgh = (1/2)mv^2.

You can calculate the height, but you need the length of the rope to figure that out.

I can't really think of a way to do this without the length of rope. If you have it, just use trig, get the h, plug it in.
I don't think you need the length of the rope. The PE is converted to KE at the bottom:

mgRsin(40) = PE = \frac{1}{2}mv^2

mv^2/R = F_c = 2mgsin(40)

So the maximum force on the rope (at the bottom) is:

F_{max} = mg + F_c = mg + 2mgsin(40) = mg(1 + 2sin(40))

F_{max} = 85*9.8(1 + 2(.6428)) = 1903 N

AM
 

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