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(a) What is the resistance of a 220-V ac short circuit that generates a peak power of 96.8 kW? (b) What would the average power be if the voltage were 120 V ac?

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A heart defibrillator passes 10.0 A through a patient’s torso for 5.00 ms in an attempt to restore normal beating. (a) How much charge passed? (b) What voltage was applied if 500 J of energy was dissipated? (c) What was the path’s resistance? (d) Find the temperature increase caused in the 8.00 kg of affected tissue.

a. 5.00 × 10 −2 C; b. 10.0 kV; c. 1.00 ; d. 1.79 × 10 2 °C

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A short circuit in a 120-V appliance cord has a 0.500 - Ω resistance. Calculate the temperature rise of the 2.00 g of surrounding materials, assuming their specific heat capacity is 0.200 cal/g · ° C and that it takes 0.0500 s for a circuit breaker to interrupt the current. Is this likely to be damaging?

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Additional problems

A circuit contains a D cell battery, a switch, a 20 - Ω resistor, and four 20-mF capacitors connected in series. (a) What is the equivalent capacitance of the circuit? (b) What is the RC time constant? (c) How long before the current decreases to 50 % of the initial value once the switch is closed?

a. C eq = 4.00 mF ; b. τ = 80 ms ; c. 55.45 ms

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A circuit contains a D-cell battery, a switch, a 20 - Ω resistor, and three 20-mF capacitors. The capacitors are connected in parallel, and the parallel connection of capacitors are connected in series with the switch, the resistor and the battery. (a) What is the equivalent capacitance of the circuit? (b) What is the RC time constant? (c) How long before the current decreases to 50 % of the initial value once the switch is closed?

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Consider the circuit below. The battery has an emf of ε = 30.00 V and an internal resistance of r = 1.00 Ω . (a) Find the equivalent resistance of the circuit and the current out of the battery. (b) Find the current through each resistor. (c) Find the potential drop across each resistor. (d) Find the power dissipated by each resistor. (e) Find the total power supplied by the batteries.

The figure shows positive terminal of voltage source of 30 V and internal resistance 1 Ω connected in series to two sets of parallel resistors. The first set has R subscript 1 of 9 Ω and R subscript 2 of 18 Ω. The second has R subscript 3 of 10 Ω and R subscript 4 of 10 Ω. The sets are connected in series to resistor R subscript 5 of 8 Ω.

a. R eq = 20.00 Ω ;
b. I r = 1.50 A , I 1 = 1.00 A , I 2 = 0.50 A , I 3 = 0.75 A , I 4 = 0.75 A , I 5 = 1.50 A ;
c. V r = 1.50 V , V 1 = 9.00 V , V 2 = 9.00 V , V 3 = 7.50 V , V 4 = 7.50 V , V 5 = 12.00 V ;
d. P r = 2.25 W , P 1 = 9.00 W , P 2 = 4.50 W , P 3 = 5.625 W , P 4 = 5.625 W , P 5 = 18.00 W ;
e. P = 45.00 W

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A homemade capacitor is constructed of 2 sheets of aluminum foil with an area of 2.00 square meters, separated by paper, 0.05 mm thick, of the same area and a dielectric constant of 3.7. The homemade capacitor is connected in series with a 100.00 - Ω resistor, a switch, and a 6.00-V voltage source. (a) What is the RC time constant of the circuit? (b) What is the initial current through the circuit, when the switch is closed? (c) How long does it take the current to reach one third of its initial value?

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A student makes a homemade resistor from a graphite pencil 5.00 cm long, where the graphite is 0.05 mm in diameter. The resistivity of the graphite is ρ = 1.38 × 10 −5 Ω / m . The homemade resistor is place in series with a switch, a 10.00-mF capacitor and a 0.50-V power source. (a) What is the RC time constant of the circuit? (b) What is the potential drop across the pencil 1.00 s after the switch is closed?

a. τ = ( 1.38 × 10 −5 Ω m ( 5.00 × 10 −2 m 3.14 ( 0.05 × 10 −3 2 ) 2 ) ) 10 × 10 −3 F = 3.52 s ; b. V = 0.017 A ( e 1.00 s 3.52 s ) 351.59 Ω = 4.55 V

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Practice Key Terms 3

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Source:  OpenStax, University physics volume 2. OpenStax CNX. Oct 06, 2016 Download for free at http://cnx.org/content/col12074/1.3
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