A student used the apparatus shown to determine the Young modulus of brass - Edexcel - A-Level Physics - Question 5 - 2023 - Paper 3

A reference load is applied to the reference wire to ensure it remains taut and straight during the experiment, providing a stable baseline for measurements.

A long test wire has a greater extension for a given load, allowing for more precise measurements of strain. A thin wire, on the other hand, can sustain higher stress, reducing the risk of material failure during the experiment.

To calculate Young's modulus, we first determine the gradient from the graph which represents the ratio of force to extension.

1. Determine the gradient:

   • The gradient is calculated as the change in extension Δx divided by the change in force F, i.e., ext{Gradient} = rac{ ext{Δ}x}{ ext{Δ}F}
   • Using values from the graph, identify points for Δx and ΔF and substitute them accordingly.

2. Calculate Young's modulus:

   • Using the formula for Young's modulus, we have: E = rac{F}{A rac{Δx}{L}}
   • Where A is the cross-sectional area of the wire, calculated as: A = rac{ ext{π}}{4}d^2
   • Substitute the diameter of the wire and calculated values into the formula to find E.

This results in a calculated Young's modulus value of approximately $1.057 × 10^{11} ext{ N/m}^2$.