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Chapter 4: Q19E (page 842)

A strand of wire has resistance5.60mΩ.Find the net resistance of 120such strands if they are

(a) placed side by side to form a cable of the same length as a single strand, and

(b) connected end to end to form a wire 120times as long as a single strand.

Short Answer

Expert verified

(a) The net resistance of 120 strands if they are placed side by side is0.047μΩ

(b) The net resistance of 120 strands if they are connected to end to end form is672μΩ

Step by step solution

01

Determine the net resistance of 120 strands if they are placed side by side

(a) If we connect 120 strands side by side, the length of the wires will be same but the area will, which will increase by the factor 120.

Now, according to the relation between the resistance, the area, and the length, we know that the resistance is inversely proportional to the area where as the resistivity and the length are constant.

Thus, when the area increases by the factor 120, the resistance will decrease by the same factor and the net resistance will be

R120=R120=5.60120=0.047μΩ

Therefore, the net resistance of 120 strands if they are placed side by side to form a cable of the same length as a single strand is 0.047μΩ

02

Determine the net resistance of 120 strands when connected end to end

(b) If we connect 120 strands end to end, the area of the wires will be the same but in this case the length will change, which will increase by the factor 120.

According to the relation between the resistance, the area, and the length we know that the resistance is directly proportional to the length.

Thus, when the length of the wires increases by the factor 120 , the resistance will increase by the factor 120 and the net resistance will be

R120=120R=1205.60=672μΩ

Therefore, the net resistance of 120 strands if they are connected end to end to form a wire 120 times as a single strand is672μΩ

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Most popular questions from this chapter

Copper has 8.5×1022free electrons per cubic meter. A 71.0-cm

length of 12-gauge copper wire that is 2.05 mm in diameter carries 4.85 A of

current. (a) How much time does it take for an electron to travel the length

of the wire? (b) Repeat part (a) for 6-gauge copper wire (diameter 4.12 mm)

of the same length that carries the same current. (c) Generally speaking,

how does changing the diameter of a wire that carries a given amount of

current affect the drift velocity of the electrons in the wire?

You connect a battery, resistor, and capacitor as in Fig. 26.20a, where R = 12.0 Ω and C = 5.00 x 10-6 F. The switch S is closed at t = 0. When the current in the circuit has a magnitude of 3.00 A, the charge on the capacitor is 40.0 x 10-6 C. (a) What is the emf of the battery? (b) At what time t after the switch is closed is the charge on the capacitor equal to 40.0 x 10-6 C? (c) When the current has magnitude 3.00 A, at what rate is energy being (i) stored in the capacitor, (ii) supplied by the battery

An electron moves at 1.40×106m/sthrough a regionin which there is a magnetic field of unspecified direction and magnitude 7.40×10-2T. (a) What are the largest and smallest possible magnitudes of the acceleration of the electron due to the magnetic field? (b) If the actual acceleration of the electron is one-fourth of the largest magnitude in part (a), what is the angle
between the electron velocity and the magnetic field?

A typical small flashlight contains two batteries, each having an emf of1.5V, connected in series with a bulb having resistance17Ω. (a) If the internal resistance of the batteries is negligible, what power is delivered to the bulb? (b) If the batteries last for1.5hwhat is the total energy delivered to the bulb? (c) The resistance of real batteries increases as they run down. If the initial internal resistance is negligible, what is the combined internal resistance of both batteries when the power to the bulb has decreased to half its initial value? (Assume that the resistance of the bulb is constant. Actually, it will change somewhat when the current through the filament changes, because this changes the temperature of the filament and hence the resistivity of the filament wire.)

Lightning Strikes. During lightning strikes from a cloud to the

ground, currents as high as 25,000 A can occur and last for about 40 ms.

How much charge is transferred from the cloud to the earth during such a

strike?
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