Topic 15 ~ Forces and Matter

    avatar
    Created by
    Cecilia Carroll

    Cards (13)

    • Stretching, bending, and compressing
      More than one force has to be applied
      View source
    • Deformation
      Changing shape
      View source
    • Elastic Deformation
      • The object returns to its original shape when the load has been removed
      • Example: An elastic band
      View source
    • Plastic Deformation (distortions)
      • The object does not return to its original shape when the load has been removed
      • Example: A spring when pulled too far
      View source
    • Linear Elastic Distortion, Hooke's Law
      • F = kx, where F is the force applied to the spring, N, k is the spring constant, Nm−1, and x is the extension, m
      • Hooke's Law: The extension of a spring is directly proportional to the force applied
      View source
    • Linear line section on a Force/Extension Graph
      • This is elastic
      • Following Hooke's Law
      • Gradient is k
      • Elastic deformation
      • The point it stops being linear is the elastic limit
      • From then on, it does not obey Hooke's Law
      View source
    • Non-Linear line section
      • Not elastic
      • Does not follow Hooke's Law
      • Plastic Deformation
      • If shallow, lots of extension for not a lot of force, easy to stretch
      • If graph is just linear, with no "non-linear end section", the material is "brittle", so snaps instead of stretches after the elastic limit
      View source
    • Work Done
      • Area under the Force/Extension graph
      • Work Done = 1/2 kx^2
      View source
    • Atmospheric Pressure
      • The total weight of the air above a unit area at a certain altitude
      • Atmospheric pressure decreases with increasing height above the Earth's Surface
      View source
    • Pressure in a fluid
      • Pressure of a gas (for example held in a balloon) depends on atmospheric pressure
      • Pressure in a fluid causes a force perpendicular to any surface
      • Pressure = force/area
      View source
    • Pressure in Liquids
      • Deeper in a fluid you are, the greater the pressure
      • Denser the fluid is, the greater the pressure
      View source
    • Floating and Sinking
      • An object floats if its weight is less than the weight of the water it displaces
      • The buoyancy force is the upwards force that counteracts the weight of the floating object
      • This force is equal to the weight of the fluid displaced by the object
      View source
    • Pressure due to a column of liquid = height of column × density of liquid × g
      View source