Example 28.6 Three Resistors in Parallel Problem Three resistors are connected in parallel as in Figure 28.11a. A potential difference of AV = 29 V is maintained between points a and b. Find the current in each resistor.

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Chapter1: Units, Trigonometry. And Vectors
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uon Detalis
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Example 28.6 Three Resistors in Parallel
Problem Three resistors are connected in
parallel as in Figure 28.11a. A potential
difference of AV = 29 V is maintained
between points a and b.
A Find the current in each resistor.
BCalculate the power delivered to each
resistor and the total power delivered to the
three resistors.
AV
3.00 2 6.00 2 9.00 2
CCalculate the equivalent resistance of
the combination of three resistors.
(a)
3.00 2 6.00
18.0 V
9.00 Q
(b)
Figure 28.11 (a) Three resistors connected in parallel. The
voltage across each resistor is 29 V. (b) Another circuit with
three resistors and a battery. Is this equivalent to the circuit
in part (a) of the figure?
Strategy Use Equation 28.8 along with AV = IR and P = 1²R.
Transcribed Image Text:uon Detalis was Example 28.6 Three Resistors in Parallel Problem Three resistors are connected in parallel as in Figure 28.11a. A potential difference of AV = 29 V is maintained between points a and b. A Find the current in each resistor. BCalculate the power delivered to each resistor and the total power delivered to the three resistors. AV 3.00 2 6.00 2 9.00 2 CCalculate the equivalent resistance of the combination of three resistors. (a) 3.00 2 6.00 18.0 V 9.00 Q (b) Figure 28.11 (a) Three resistors connected in parallel. The voltage across each resistor is 29 V. (b) Another circuit with three resistors and a battery. Is this equivalent to the circuit in part (a) of the figure? Strategy Use Equation 28.8 along with AV = IR and P = 1²R.
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