The figure shows a resistor of resistance R = 6.09 N connected to an ideal battery of emf 8 = 12.9 V by means of two copper wires. Each wire has length 20.7 cm and radius 3.40 mm. In dealing with such circuits in this chapter, we generally neglect the potential differences along the wires and the transfer of energy to thermal energy in them. Check the validity of this neglect for the circuit of the figure below. What is the potential difference across (a) the resistor and (b) each of the two sections of wire? At what rate is energy lost to thermal energy in (c) the resistor and (d) each section of wire? Wire 1 R Wire 2

The figure shows a resistor of resistance R = 6.09 N connected to an ideal battery of emf 8 = 12.9 V by means of two copper wires. Each wire has length 20.7 cm and radius 3.40 mm. In dealing with such circuits in this chapter, we generally neglect the potential differences along the wires and the transfer of energy to thermal energy in them. Check the validity of this neglect for the circuit of the figure below. What is the potential difference across (a) the resistor and (b) each of the two sections of wire? At what rate is energy lost to thermal energy in (c) the resistor and (d) each section of wire? Wire 1 R Wire 2

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I have attached the question below, much appreciated

The figure shows a resistor of resistance R = 6.09 Q connected to an ideal battery of emf E = 12.9 V by means of two copper wires.
Each wire has length 20.7 cm and radius 3.40 mm. In dealing with such circuits in this chapter, we generally neglect the potential
differences along the wires and the transfer of energy to thermal energy in them. Check the validity of this neglect for the circuit of the
figure below. What is the potential difference across (a) the resistor and (b) each of the two sections of wire? At what rate is energy lost
to thermal energy in (c) the resistor and (d) each section of wire?
Wire 1
R
Wire 2

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