Young's Modulus (Finding Average Strain)

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SUMMARY

The discussion focuses on calculating the average strain in a steel spike during an impact event involving a 30 kg sledge hammer. The hammer strikes the spike with an initial speed of 20.9 cm/s and rebounds at 10.0 cm/s after 0.110 seconds. The average stress calculated is 2.03 x 105 N/m2. To find the average strain, the modulus of elasticity for steel, approximately 200 GPa, is required.

PREREQUISITES
  • Understanding of Young's Modulus and its application in material science
  • Knowledge of basic physics concepts such as force, stress, and strain
  • Familiarity with the equations of motion and momentum
  • Ability to perform calculations involving area and pressure
NEXT STEPS
  • Research the modulus of elasticity for various materials, focusing on steel
  • Learn how to calculate stress and strain in different impact scenarios
  • Explore the relationship between force, momentum, and time in physics
  • Study the applications of Young's Modulus in engineering and material selection
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Students in physics and engineering, material scientists, and professionals involved in impact analysis and material testing will benefit from this discussion.

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Homework Statement


A 30kg sledge hammer strikes a steel spike of 2.30 cm diameter while moving at 20.9 cm/s. The hammer rebounds with a speed of 10.0 cm/s after 0.110 s. What is the average strain in the spike during impact?

Mass of hammer = 30 kg
Radius of Spike = 1.15 cm or 0.0115m
Initial speed of hammer = 0.209 m/s
Final speed of hammer = 0.100 m/s
Time of impact = 0.110 s

Homework Equations



Y = Stress / Strain
Stress = Force Applied / Area Perpendicular
Inertia = Force * (Delta Time) = Change in Momentum = Mass * (Delta Speed)

The Attempt at a Solution



Manipulating the Inertia equations, I got that

Force = (Mass * (Delta Speed))/(Delta Time)

Dividing that by the Area of the head of the steel spike gives me the average stress during this time.

(Stress came out to be 2.03*10^5 N/m^2 for me)

I am confused as to how to find out the average strain without the Modulus of the steel spike. :/
 
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You might just need to look up the modulus of elasticity of steel and use it, otherwise, you can't really find it. It should be around 200 GPa if I remember correctly.
 

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