Maximum Strain of Steel in Space Elevator Design | Physics Homework Help

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Discussion Overview

The discussion revolves around the calculations needed for a physics homework project focused on the design of a space elevator, specifically addressing the maximum height a steel rod can reach before it fails due to stress. The scope includes theoretical calculations and application of material properties.

Discussion Character

  • Homework-related
  • Technical explanation

Main Points Raised

  • One participant expresses confusion about calculating strain and seeks assistance with the maximum height of a steel rod in a space elevator context.
  • Another participant suggests focusing on stress rather than strain, recommending the calculation of the length at which the breaking stress of steel will be exceeded.
  • A subsequent reply reiterates the suggestion to focus on stress and asks how to calculate the breaking stress.
  • One participant proposes using the breaking stress value of 500 MPa mentioned earlier as a potential solution.

Areas of Agreement / Disagreement

Participants do not reach a consensus on the approach to the problem, with differing views on whether to focus on strain or stress, and uncertainty remains regarding the calculation of breaking stress.

Contextual Notes

Participants have not established the initial length or change in length necessary for calculating strain, and there is ambiguity regarding the definition and application of breaking stress in this context.

exibo177
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Homework Statement


Alright, so I have this final project in physics which was due yesterday and I'm turning it in late because i have a problem with understanding one thing.
so the project it about space elevators and the teacher asked me to make calculations about what is the maximum height of strongest modern material (steel) as a rod, until it tears itself down...

Homework Equations


I think of using the equation:
F/A=E*strain


The Attempt at a Solution


F/A for steel is 500x10^6
and E for steel is 200x10^6

i don't know how to calculate strain though, as i don't know initial length or change in length so could you please help me with this? with explanations
 
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You don't need to look at the strain, only the stress, P/A. Look up the density of steel and caculate the length at which its breaking stress will be exceeded at the top of the rod.
 
PhanthomJay said:
You don't need to look at the strain, only the stress, P/A. Look up the density of steel and caculate the length at which its breaking stress will be exceeded at the top of the rod.
Alright, but how do i calculate the breaking stress??
 
exibo177 said:
Alright, but how do i calculate the breaking stress??
I guess you can use the 500 Mpa value you listed.
 

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