Solving Elasticity & Work Problems

  • Thread starter Thread starter ppkjref
  • Start date Start date
  • Tags Tags
    Elasticity Work
Click For Summary
SUMMARY

The work done in stretching a wire of length L, Young's modulus Y, and cross-sectional area A by an amount ∆L is given by the formula W = [YA(∆L)^2] / 2L. The force applied, F, varies linearly from 0 to its maximum value during the stretching process, similar to Hooke's law (F = kx). To derive the work done, one can either use calculus or calculate the average force over the displacement, leading to the conclusion that the factor of 2 in the denominator accounts for the variable nature of the force applied.

PREREQUISITES
  • Understanding of Young's modulus (Y) and its application in material science.
  • Familiarity with basic principles of mechanics, specifically Hooke's law.
  • Knowledge of calculus for deriving work done from variable forces.
  • Ability to manipulate algebraic equations involving force, displacement, and work.
NEXT STEPS
  • Study the derivation of work done using calculus in variable force scenarios.
  • Learn more about Hooke's law and its applications in elastic materials.
  • Explore the concept of average force and its significance in work calculations.
  • Investigate the properties of materials under stress and strain, focusing on Young's modulus.
USEFUL FOR

Students in physics and engineering, material scientists, and anyone studying mechanics of materials will benefit from this discussion.

ppkjref
Messages
18
Reaction score
0

Homework Statement



A wire of length L, Young's modulus Y, and cross sectional area A, is stretch elastically by an amount ∆L.

show that the work done in stretching a wire must be W = [YA(∆L)^2] / 2L

Homework Equations



∆L = (1/Y)(F/A)L
W = F * d (where displacement = ∆L)


The Attempt at a Solution




If ∆L = (1/Y)(F/A)L
F = (YA∆L)/L

Also if W = F * d (where displacement = ∆L)
W = F * ∆L
F = W/∆L

Then, (YA∆L)/L = W/∆L
[YA(∆L)^2] / L = W

However I do not see how W = [YA(∆L)^2] / 2L. I am missing the 2.
 
Physics news on Phys.org
ppkjref said:

Homework Statement



A wire of length L, Young's modulus Y, and cross sectional area A, is stretch elastically by an amount ∆L.

show that the work done in stretching a wire must be W = [YA(∆L)^2] / 2L

Homework Equations



∆L = (1/Y)(F/A)L
W = F * d (where displacement = ∆L)


The Attempt at a Solution




If ∆L = (1/Y)(F/A)L
F = (YA∆L)/L

Also if W = F * d (where displacement = ∆L)
W = F * ∆L
F = W/∆L

Then, (YA∆L)/L = W/∆L
[YA(∆L)^2] / L = W

However I do not see how W = [YA(∆L)^2] / 2L. I am missing the 2.
That's because the applied force is not constant, it varies linearly from 0 at the start to a max value at (∆L), similar to a force in a spring which varies in the same manner (F=kx, Hooke's law). You can find the work done by using calculus and the definition of work done by a force, or since the force varies linearly with x, you can just take the average of the max and min force values.
 
Okay thanks for your help.
 

Similar threads

Work done pushing a spring from the side
  • · Replies 9 ·
Replies
9
Views
2K
To find the modulus of elasticity of a light elastic string
  • · Replies 7 ·
Replies
7
Views
3K
Calculating the Planck Length
  • · Replies 3 ·
Replies
3
Views
1K
Using virtual work to find the angle of a bar supported by two planes
  • · Replies 22 ·
Replies
22
Views
3K
Young's Modulus Question: stretch of a wire
  • · Replies 1 ·
Replies
1
Views
2K
Help Solving 2 Qs: Tan(Ɵ) & Sign Direction Error
  • · Replies 6 ·
Replies
6
Views
2K
Acceleration of Mass m: Problem Solving
  • · Replies 10 ·
Replies
10
Views
3K
Help Calculating probability between 2 limits for the ground state
  • · Replies 28 ·
Replies
28
Views
2K
Problem involving space elevators
  • · Replies 19 ·
Replies
19
Views
2K
Long distance electrical transmission efficiency
  • · Replies 2 ·
Replies
2
Views
2K