4.2 - Materials

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Created by
Dan Roper

Cards (22)

  • What is Hooke's Law?
    Extension is directly proportional to force, given that the environmental conditions are kept constant.
    F=ke
  • What equation is used to calculate density?
    Density = mass/volume
  • What is meant by tensile stress?

    The force applied per unit cross sectional area
    Stress = Force/Area
  • What is tensile strain?
    A measure of how a material stretches
    Tensile Strain = Delta L / L
  • What is the difference between elastic and plastic deformation?
    Elastic Deformation: when the force is removed the object will return to its original shape
    Plastic Deformation: after the load is removed the object will not return to its original shape
  • What is breaking stress?
    The minimum stress needed to break a material
  • What is meant when a material is described as brittle?
    It doesn't deform plastically but breaks when the stress reaches a certain value
  • What is the elastic limit?
    The force above which the material will be plastically deformed (permanently stretched)
  • What does the area under a force-extension graph represent?
    The work done to deform a material
    Work done = 1/2ForceDelta Length
  • State the equation to calculate elastic strain energy from the spring constant and tension
    E = 1/2k(Delta L)^2
  • What is Young's Modulus?
    stress/strain - it describes the stiffness of a material
  • How do you find the Young Modulus from a stress-strain graph?
    The gradient
  • How can a force-extension graph show Hooke's Law is being obeyed?
    When it is a straight line through the origin, showing that force and extension are directly proportional
  • What is the limit of proportionality and what does it look like on a force-extension graph?
    The point after which Hooke's Law is no longer obeyed, it is shown by the line beginning to curve on a force-extension graph
  • How is the work done to stretch or compress a material stored?
    Elastic strain energy
  • Why are the loading and unloading lines parallel on a force-extension graph for a plastically deformed material?
    The stiffness constant (k) hasn't changed, the forces between the atoms are the same when loading and unloading
  • Why isn't all work done stored as elastic strain energy when a stretch is plastic?
    Work is done to move atoms apart, so energy is not stored as elastic strain energy but is dissipated as heat
  • How is the dissipation of energy in plastic deformation used to design safer vehicles?
    - Crumple zones deform plastically in a crash using the car's kinetic energy so less energy is transferred to its passengers
    - Seat belts stretch to convert the passenger's kinetic energy into elastic strain energy
  • Outline the energy changes that occur when a spring fixed at the top is pulled down and released
    The work done in pulling the spring down (stretching it) is stored as elastic strain energy, when the spring is released this is converted to kinetic energy which is converted to gravitational potential energy as the spring rises
  • Do stress-strain graphs show the behaviour of a material or a specific object?
    Material
  • Where would you find the ultimate tensile stress on a stress-strain graph?
    The highest point on a graph, it is the maximum stress a material can withstand
  • What would the stress-strain graph look like for a ductile material?
    A ductile material can undergo a large amount of plastic deformation before fracturing