Electrical Energy (CIE IGCSE Physics: Co-ordinated Sciences (Double Award))

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Katie M

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Katie M

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Energy transfer in electrical circuits

  • As electricity passes around a circuit, energy is transferred from the power source to the various components
    • As charge passes through the power supply, energy is transferred to the charge
    • As the charge passes through each component, energy is transferred from the charge to the component 
    • The component will often dissipate some of that energy to the surroundings

Energy transfers in a circuit

Current and energy, IGCSE & GCSE Physics revision notesCharge gains energy from the power supply, and transfers the energy to the components

 

  • Some domestic appliances transfer energy from the chemical store of cells and batteries, such as mobile phones, laptops, and remote controls
  • Most larger household appliances transfer energy electrically from the mains supply

  • Lots of household appliances contain motors
    • Vacuum cleaners: to create the suction to suck in dust and dirt off carpets
    • Washing machines: to rotate the drum to wash (or dry) clothes
    • Refrigerators: to compress the refrigerant chemical into a liquid to reduce the temperature
  • Energy is transferred electrically from the mains supply to the kinetic store of the motor in the appliance

  • Lots of household appliances contain heaters
    • Toasters: to heat up food
    • Kettles: to boil water
    • Boiler in a central heating system: hot water is pumped from the boiler so the radiator can heat up a room 
  • Energy is transferred electrically from the mains supply to the thermal store of the heater.

Energy transfers in common household appliances

energy-transfers-appliances-

Energy is transferred electrically from the mains supply to the kinetic store of the motor in a washing machine, or to the thermal store of the heating element in a toaster

Electrical energy equation

  • The amount of energy transferred by an electrical appliance depends on:
    • how long the appliance runs for
    • the power rating of the appliance
  • Electrical energy can be calculated using the following equation:

E space equals space V I t

  • Where:
    • E = energy, measured in joules (J)
    • V = potential difference, measured in volts (V)
    • I = current, measured in amps (A)
    • t = time, measured in seconds (s)

Worked example

A washing machine runs a cycle for 3 hours and 16 minutes. The potential difference of the mains supply is 230 V. A current of 10.0 A flows through the washing machine for the duration of the cycle. 

Determine the amount of energy transferred from the mains supply during the cycle. Give your answer in MJ.

Answer:

Step 1: List the known quantities

  • Potential difference, V space equals space 230 space straight V
  • Current, I space equals space 10.0 space straight A
  • Time, t space equals space 3 space hrs space 16 space min

Step 2: Convert the time to seconds

  • 1 hour = 60 mins

3 space cross times space 60 space equals space 180 space min

180 space plus space 16 space equals space 196 space min

  • 1 min = 60 s

196 space cross times space 60 space equals space 11 space 760 space straight s

Step 3: Write out the equation for electrical energy

E space equals space V I t

Step 4: Substitute in the known values to calculate

E space equals space 230 space cross times space 10 space cross times space 11 space 760

E space equals space 27 space 048 space 000 space straight J

Step 5: Give your answer in MJ

  • 1 MJ = 1 000 000 J

E space equals space 27 space MJ

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Katie M

Author: Katie M

Expertise: Physics

Katie has always been passionate about the sciences, and completed a degree in Astrophysics at Sheffield University. She decided that she wanted to inspire other young people, so moved to Bristol to complete a PGCE in Secondary Science. She particularly loves creating fun and absorbing materials to help students achieve their exam potential.