Practical- Density

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Created by
Lily Mae Pettifer

Cards (10)

  • Determining Density
    • Methods for regular and irregular objects are described, and a method for the density of liquids
    • The equipment list for the first two investigations are similar
  • EQUIPMENT LIST:
    A) Liquid
    B) 30 cm
    C) Micrometer
    D) balance
    E) Displacement
    F) Measuring
    • Resolution of measuring equipment:
    • 30 cm ruler = 1 mm
    • Vernier calipers = 0.01 mm
    • Micrometer = 0.001 mm
    • Digital balance = 0.01 g
  • REGULAR OBJECTS:
    Aim of the Experiment
    • The aim of this experiment is to determine the densities of regular objects by using measurements of their dimensions
    Method
    1. Place the object on a digital balance and note down its mass
    2. Use either the ruler, Vernier calipers or micrometer to measure the object’s dimensions (width, height, length, radius) – the apparatus will depend on the size of the object
    3. Repeat these measurements and take an average of these readings before calculating the density
  • REGULAR OBJECTS:
    Analysis of Results
    • Calculate the volume of the object depending on whether it is a cube, sphere, cylinder (or other regular shape)
    Calculating the volume of an object depends on its shape
    • Remember to convert from centimetres (cm) to metres (m) by dividing by 100
    1 cm = 0.01 m
    50 cm = 0.5 m
    • Using the mass and volume, the density of each can be calculated using the equation:
    • Where:
    • ρ = density in kilogram per metres cubed (kg/m3)
    • m = mass in kilograms (kg)
    • V = volume in metres cubed (m3)
  • IRREGULAR OBJECTS
    Aim of the Experiment
    • The aim of this experiment is to determine the densities of irregular objects using a displacement technique
    Method
    1. Place the object on a digital balance and note down its mass
    2. Fill the eureka can with water up to a point just below the spout
    3. Place an empty measuring cylinder below its spout
    4. Carefully lower the object into the eureka can
    5. Measure the volume of the displaced water in the measuring cylinder
    6. Repeat these measurements and take an average before calculating the density
  • IRREGULAR OBJECT:
    Analysis of Results
    • The volume of the water displaced is equal to the volume of the object
    • Once the mass and volume of the shape are known, the density can be calculated
  • DENSITY OF A LIQUID:
    Aim of the Experiment
    • The aim of this experiment is to determine the density of a liquid
    Method
    1. Place an empty measuring cylinder on a digital balance and
    2. Fill the cylinder with the liquid and note down the volume
    3. Note down the new reading on the digital balance
    4. Repeat these measurements and take an average before calculating the density

    Analysis of Results
    • Find the mass of the liquid by subtracting the final reading from the original reading
    Mass of liquid = Mass of cylinder with watermass of cylinder
  • LIQUID DENSITY:
    Evaluating the Experiments
    Systematic Errors:
    • Ensure the digital balance is set to zero before taking measurements of mass
    • This includes when measuring the density of the liquid – remove the measuring cylinder and zero the balance before adding the liquid
    Random Errors:
    • A main cause of error in this experiment is in the measurements of length
    • Ensure to take repeat readings and calculate an average
    • Place the irregular object in the displacement can carefully, as dropping it from a height might cause water to splash which will lead to an incorrect volume reading
  • Safety Considerations
    • There is a lot of glassware in this experiment, ensure this is handled carefully
    • Water should not be poured into the measuring cylinder when it is on the electric balance
    • This could lead to electric shock
    • Make sure to stand up during the whole experiment, to react quickly to any spills