Work done by gravity by Wonder Woman

AI Thread Summary
Wonder Woman, with a mass of 52 kg, is attempting to calculate the work done against gravity while using a 13.0 m rope to reach a ledge at a 60-degree angle. The discussion revolves around understanding the problem's wording and determining the correct approach to calculate work done, which is linked to the change in gravitational potential energy. Participants clarify that the work done can be expressed as W = mgΔh, where Δh is the height change from the vertical position. There is also a correction regarding the rope length, confirming it is 13 m, not 30 m. The conversation concludes with a sense of resolution as the participant feels more confident about completing the homework.
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Work done against gravity by Wonder Woman

Homework Statement


Wonder Woman, whose mass is 52 kg, is holding onto the free end of a 13.0 m rope, the other end of which is fixed to a tree limb above. She is able to get the rope in motion so that she can reach a ledge when the rope makes a 60 degree angle with the downward vertical axis. How much work does Wonder Woman do against the force of gravity?


Homework Equations


W=mgdcos(θ) ...maybe?


The Attempt at a Solution


Honestly, I'm having a hard time even understanding the wording of the problem itself (ESL). Are they telling me she swung over to a ledge, and want me to calculate the work of gravity when she's by that ledge? I don't get it...some insight on what is being asked would be greatly appreciated.

Thanks in advance,

Filipe
 
Last edited:
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venceslau said:

Homework Statement


Wonder Woman, whose mass is 52 kg, is holding onto the free end of a 13.0 m rope, the other end of which is fixed to a tree limb above. She is able to get the rope in motion so that she can reach a ledge when the rope makes a 60 degree angle with the downward vertical axis. How much work does Wonder Woman do against the force of gravity?


Homework Equations


W=mgdcos(θ) ...maybe?


The Attempt at a Solution


Honestly, I'm having a hard time even understanding the wording of the problem itself (ESL). Are they telling me she swung over to a ledge, and want me to calculate the work of gravity when she's by that ledge? I don't get it...some insight on what is being asked would be greatly appreciated.

Thanks in advance,

Filipe

I suspect the work done will simply equal the change in Gravitational potential energy compared to hanging vertically, and being on the ledge.
 
PeterO said:
I suspect the work done will simply equal the change in Gravitational potential energy compared to hanging vertically, and being on the ledge.

Ohh...I feel so dumb now. lol.
So, will it be just the change in potential energy for Δh?

[STRIKE]So final equation is W=m*g*Δh=m*g*(30-30*cos(θ)) ?[/STRIKE]
So final equation is W=m*g*Δh=m*g*(13-13*cos(θ)) ?

Thanks
 
Last edited:
venceslau said:
Ohh...I feel so dumb now. lol.
So, will it be just the change in potential energy for Δh?

So final equation is W=m*g*Δh=m*g*(30-30*cos(θ)) ?

Thanks

I think the figure [rope length] in the original was 13 not 30?
I appreciate the ESL difficulty with written questions.
 
PeterO said:
I think the figure [rope length] in the original was 13 not 30?
I appreciate the ESL difficulty with written questions.

Thanks for pointing that out! Fixed.
I am the worst for making dumb mistakes like that.

I appreciate your quick reply, I can now finish my homework. :)
 

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