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EMF and Internal Resistance

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EMF and Internal Resistance Electricity Lesson 9 Learning Objectives To know why the pd of a cell in use is less than its emf. To know how to measure the internal ... – PowerPoint PPT presentation

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Title: EMF and Internal Resistance


1
EMF and Internal Resistance
  • Electricity Lesson 9

2
Learning Objectives
  • To know why the pd of a cell in use is less than
    its emf.
  • To know how to measure the internal resistance of
    a cell.
  • To know how to calculate how much power is wasted
    in a cell.

3
Question
  • What is the difference between emf and potential
    difference?

4
Answer
  • Emf is the total energy supplied to the
    circuit per unit charge by the cell.
  • pd is the energy per unit charge converted to
    other energies by the components. 

5
Electromotive Force
  • The energy supplied to a circuit by a cell is
    given by
  • E is the energy in J, Q is the charge in C, e is
    the emf in volts (NOT Newtons).
  • No circuit at all is 100 efficient.  Some
    energy is dissipated in the wires, or even in the
    cell itself.

6
Internal Resistance
  • The internal resistance of a source is the loss
    of potential difference per unit current in the
    source when current passes through the wire.
  • It is caused by the opposition to the flow of
    charge through the source.
  • We will use the symbol r to represent internal
    resistance.

7
A simple circuit
  • In this circuit the voltmeter reads (very nearly)
    the emf.
  • (A perfect voltmeter has infinite resistance.  A
    digital multimeter has a very high resistance, so
    needs a tiny current it is almost perfect.  )

8
Add a resistor
  • This time we find that the terminal voltage goes
    down to V. 
  • Since V is less than E, this tells us that not
    all of the voltage is being transferred to the
    outside circuit some is lost due to the internal
    resistance which heats the battery up. 
  • Emf Useful volts  Lost volts

9
Terminal pd
  • The electrical energy per unit charge delivered
    by the source when it is in a circuit.
  • The terminal pd, V, is less than the emf, e,
    whenever current passes through the source.
  • The difference is the lost pd, v, due to the
    internal resistance of the source.

10
Including internal resistance
  • The resistors are connected in series.
  • So total resistance is-
  • R r
  • Current through the cell-

11
Lost pd
  • So the cell
  • In other words-
  • In energy terms the lost pd is the energy per
    coulomb dissipated or wasted inside the cell due
    to the internal resistance.

12
Circuit Diagram
13
Lost pd
  • The terminal pd can be calculated using-
  • The equation becomes-
  • The lost pd can be calculated using-

14
Worked Example
  • A battery of emf 12 volts and internal resistance
    0.5 ohms is connected to a 10 ohm resistor.  What
    is the current and what is the terminal voltage
    of the battery under load?

15
Worked Example Diagram
16
Step 1
  • Treat the circuit as a perfect battery in series
    with an internal resistor.  The circuit becomes

17
Worked Solution
  • Step 2  Work out the total resistance
  • R tot R1 R2 10 ohms 0.5 ohms 10.5 ohms
  • Step 3 Now work out the currentI V/R 12
    10.5 1.14 A
  • Step 4 work out the voltage across the internal
    resistor (lost voltage) v Ir 1.14 amps 0.5
    ohms 0.57 volts

18
Worked Solution
  • Step 5 work out the terminal voltage Terminal
    voltage emf - lost voltage 12 - 0.57 11.43
    volts
  • We can of course work out the terminal voltage by
    working the voltage across the 10 ohm resistor,
    assuming there are no losses.

19
Power Wasted in a Cell
  • Recall that power can be calculated using-
  • So we can multiply our equation by I to get-
  • Or in words-

20
Measuring Internal Resistance
21
Measuring Internal Resistance
  • Terminal pd and current can be plotted on a
    graph.
  • This equation is in the form of a straight line
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