E.M.F. vs. Terminal Potential Difference (Edexcel International A Level Physics)

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E.M.F. vs. Terminal Potential Difference

Terminal Potential Difference

  • The terminal potential difference (p.d.) is the potential difference across the terminals of a cell
    • If there was no internal resistance, the terminal p.d. would be equal to the e.m.f.
    • If a cell has internal resistance, the terminal p.d. is always lower than the e.m.f.
    • If you have a load resistor R across the cell's terminals, then the terminal p.d. is also the potential difference across the load resistor

Internal Resistance Circuit, downloadable AS & A Level Physics revision notes

Circuit showing the e.m.f. and internal resistance of a power supply

  • Where:
    • Resistor R is the ‘load resistor’
    • r is the internal resistance
    • ε is the e.m.f.
    • Vr is the lost volts
    • VR is the p.d across the load resistor, which is the same as the terminal p.d.
  • Terminal potential difference is the voltage available to the rest of the circuit

VR = I × R  ( from Ohm’s law)

  • Where:
    • R = load resistance (Ω)
    • I = current in the circuit (A)
    • VR = Terminal p.d. (V)

  • When a load resistor is connected, current flows through the cell and a potential difference develops across the internal resistance.
    • This voltage is not available to the rest of the circuit so is called the ‘lost volts’
  • Vr is the lost volts
    • This is the voltage lost in the cell due to internal resistance

Vr = I × r (from Ohm’s law)

  • Where:
    • r = internal resistance (Ω)
    • I = current in the circuit (A)
    • Vr = Lost volts (V)

  • The e.m.f. is the sum of the terminal p.d. and the lost volts:

EMF equation, downloadable AS & A Level Physics revision notes

The Difference Between Potential Difference and E.M.F

  • The difference between potential difference and e.m.f is the type of energy transfer per unit charge

 

Potential difference definition, downloadable AS & A Level Physics revision notes

  • When charge passes through a resistor, for example, its electrical energy is converted to heat in the resistor
    • The resistor, therefore, has a potential difference across it

  • Potential difference describes the loss of energy from charges
    • Ie. when electrical energy is transferred to other forms of energy in a component

  • E.m.f. describes the transfer of energy from the power supply to electrical charges within the circuit

Worked example

A battery of e.m.f. 7.3 V and internal resistance r of 0.3 Ω is connected in series with a resistor of resistance 9.5 Ω.WE - internal resistance question image, downloadable AS & A Level Physics revision notesDetermine:

a)     The current in the circuit

b)     Lost volts from the battery

Worked example internal resistance (2), downloadable AS & A Level Physics revision notes

Examiner Tip

If the exam question states 'a battery of negligible internal resistance', this assumes that e.m.f. of the battery is equal to its voltage. Internal resistance calculations will not be needed here. If the battery in the circuit diagram includes internal resistance, then the e.m.f. equations must be used.

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Joanna

Author: Joanna

Expertise: Physics

Joanna obtained her undergraduate degree in Natural Sciences from Cambridge University and completed her MSc in Education at Loughborough University. After a decade of teaching and leading the physics department in a high-performing academic school, Joanna now mentors new teachers and is currently studying part-time for her PhD at Leicester University. Her passions are helping students and learning about cool physics, so creating brilliant resources to help with exam preparation is her dream job!