C6 Materials Flashcards
1
Q
Forces that produce extension/compression are known as what?
A
Extension = Tensile Forces
Compression = Compressive Forces
2
Q
State Hooke’s Law, condition, and formula
A
- The extension of the spring is directly proportional to the force applied.
- This is true as long as the elastic limit of the spring is not exceeded.
- F = kx
3
Q
What does k represent in F = kx
A
K = force constant, stiffness of spring, measured in newtons per metre, N/m
4
Q
How to reduce errors when investigating Hooke’s law
A
- Take measurements using a set square.
- Take readings at eye level to reduce parallax (angle of viewing) errors.
- Use digital balance for mass.
- Draw F against x, gradient = k.
- Area under graph = work done, E (EPE).
5
Q
Formula for elastic potential energy
A
E = area under graph (area of shaded triangle)
E = 1/2 Fx
E = 1/2 kx^2
6
Q
Relationship between elastic potential energy and extension
A
Elastic Potential Energy is directly proportional to extension^2, doubling extension quadruples stored energy.
7
Q
Tensile Stress Formula
A
Force / CSA
8
Q
Tensile Strain
A
Extension / Original Length
9
Q
Describe Stress over strain graph
A
- Under the limit of proportionality, the material obeys Hooke’s law, and stress is proportional to strain.
- The gradient of the straight line bit is Young’s Modulus.
10
Q
Define UTS
A
- Ultimate Tensile Strength is the maximum stress that a material can withstand when being stretched before it breaks.
- Beyond this point, material may become longer and thinner (necking), then reach breaking point.
11
Q
What is Young’s Modulus? Unit?
A
- The ratio of stress to strain of a particular material, stress / strain.
- Unit is Pa, Nm-2.
