AQA Combined - Physics Paper 1

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Created by
josh

Cards (82)

  • Types of error
    • Systematic errors
    • Random errors
  • Systematic errors are caused by poorly calibrated equipment
  • Prefixes for units
    • Milli (1/1000)
    • Micro (1/1,000,000)
    • Nano (1/1,000,000,000)
    • Kilo (1,000)
    • Mega (1,000,000)
    • Giga (1,000,000,000)
  • Units for quantities
    • Energy (Joules)
    • Speed (Meters per second)
    • Mass (Kilograms)
    • Height (Meters)
    • Power (Watts)
    • Time (Seconds)
    • Charge (Coulombs)
    • Potential difference (Volts)
    • Current (Amps)
    • Resistance (Ohms)
    • Density (Kilograms per meter cubed)
  • System
    An object or a group of objects that can store energy
  • Ways energy can be stored in a system
    • Magnetic store
    • Kinetic store
    • Thermal store
    • Gravitational potential store
    • Chemical store
    • Elastic potential store
    • Electrostatic store
    • Nuclear store
  • Conservation of energy

    In a closed system, energy cannot be created or destroyed, only transferred between different stores
  • Calculating gravitational potential energy
    1. Write down the equation
    2. Substitute the values for mass, gravitational field strength, and height
    3. Calculate the answer and include the units (Joules)
  • Calculating kinetic energy
    1. Write down the equation
    2. Substitute the values for mass and speed
    3. Calculate the answer and include the units (Joules)
  • Calculating elastic potential energy
    1. Write down the equation
    2. Substitute the values for spring constant and extension
    3. Calculate the answer and include the units (Joules)
  • Specific heat capacity
    The maximum amount of energy that a substance will absorb to make it change temperature by 1 degree Celsius per kilogram
  • Calculating specific heat capacity
    1. Write down the equation
    2. Substitute the values for energy, mass, and temperature change
    3. Calculate the answer and include the units (Joules per kilogram degree Celsius)
  • The idea of the required practical is that you're given either a metal block or a container of liquid and you're trying to find out what the specific heat capacity is
  • Change in temperature
    Difference between starting and ending temperature
  • Mass
    Must be in kilograms (if given in grams, divide by 1000)
  • Specific heat capacity
    How much energy it takes to heat up 1 kg by 1 degree C
  • Required practical to find specific heat capacity
    1. Given metal block or container of liquid
    2. Use balance to measure mass
    3. Insulate to minimize energy losses
    4. Use thermometer to measure temperature change
    5. Use electrical heater to heat up
    6. Calculate energy transferred using voltmeter, ammeter, and stopwatch
  • Power
    Rate at which energy is transferred or work is done
  • More powerful appliance

    Faster it can do work or transfer energy
  • Calculating power
    Energy (in joules) divided by time (in seconds)
  • Efficiency
    Proportion of energy that has been usefully transferred, can be expressed as decimal or percentage
  • Conservation of energy - same amount of energy at end as start, but some transferred wastefully
  • Ways to reduce wasted energy
    • Reduce heat loss by insulating
    • Reduce thermal conductivity
    • Reduce drag by streamlining
    • Reduce friction
  • Renewable energy resources

    Being generated faster than used
  • Non-renewable/finite energy resources
    Being used faster than generated
  • Factors to consider for energy resources
    • Renewable/non-renewable
    • Cost
    • CO2 emissions
    • Reliability
    • Geographic restrictions
    • Radioactive waste disposal and risks (for nuclear)
  • Current
    Speed of flow of charge around circuit
  • Potential difference
    Amount of energy being transferred by a component
  • Required practical 15 - Measuring IV characteristics

    1. Use ammeter in series, voltmeter in parallel to measure current and potential difference
    2. Calculate resistance using R=V/I
  • Required practical 16 - Investigating current and potential difference

    1. Use ammeter in series, voltmeter in parallel to measure current and potential difference
    2. Draw IV graphs for different components
  • IV graphs
    • Ohmic conductor - linear, proportional
    • Filament lamp - S-shaped curve
    • Diode - only allows current flow in one direction
  • Light dependent resistor
    Resistance decreases as light gets brighter
  • Thermistor
    Resistance decreases as temperature increases
  • Series circuit
    Only one path for charges to follow
  • Parallel circuit
    Charges split at junction, go through different paths
  • In series circuit

    Current is the same everywhere
  • In parallel circuit
    Currents in branches add up to total current
  • In series circuit
    Potential difference split between components
  • In parallel circuit

    Potential difference the same across each component
  • Electrical circuit
    1. Charges split into branches
    2. Charges add up to total current
    3. Potential difference splits in series circuit
    4. Potential difference doesn't split in parallel circuit
    5. Resistance adds up in series circuit
    6. Resistance decreases in parallel circuit