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Chapter 27: Q81P (page 801)

In Fig. 27-5a, find the potential difference acrossR₂if $蔚 = 12 V, R_{1} = 3.0 惟, R_{2} = 4.0 惟 a n d R_{3} = 5.0 惟$

Short Answer

Expert verified

The potential difference across R₂ is 4.0V.

Step by step solution

01

The given data

a) The given emf of the battery in the circuit, $蔚 = 12 V$ .

The given resistances $R_{1} = 3.0 惟, R_{2} = 4.0 惟, R_{3} = 5.0 惟$

02

Understanding the concept of potential difference

For the pair of resistors in a series connection, the current value remains the same for each resistor. Thus, the voltage drop across each resistor is divided equally as per the values of the resistances.

Formulae:

The voltage equation using Ohm鈥檚 law,

V=IR (i)

Here I is the current, and R is the resistance.

Kirchhoff鈥檚 voltage law,

(ii)

03

Calculation of the potential difference across the resistor 2.

Now, as the value of current is the same throughout the closed loop, using equation (i) in equation (ii), we can get the current equation for the given capacitors as follows:

Thus, the potential difference across resistor 2 is given using the above value in equation (i) as follows:

Substitute the values in the above formula, and we get,

Hence, the value of the potential difference is 4.0V.

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Most popular questions from this chapter

When resistors 1 and 2 are connected in series, the equivalent resistance is 16.0 鈩�. When they are connected in parallel, the equivalent resistance is 3.0 鈩�. What are the smaller resistance and the larger resistance of these two resistors?

A 10-km-long underground cable extends east to west and consists of two parallel wires, each of which has resistance 13 鈩�/km. An electrical short develops at distance xfrom the west end when a conducting path of resistance Rconnects the wires (Figure). The resistance of the wires and the short is then 100 鈩� when measured from the east end and 200 鈩� when measured from the west end. What are

(a) xand

(b) R?

A copper wire of radius $a = 0.250 mm$ has an aluminium jacket of outer radius $b = 0.380 mm$ . There is a current $i = 2.00 A$ in the composite wire. Using Table 26-1, calculate the current in (a) the copper and (b) the aluminium. (c) If a potential difference $V = 12.0 V$ between the ends maintains the current, what is the length of the composite wire?

Cap-monster maze.In Fig. 27-22, all the capacitors have a capacitance of $60 渭颁$ , and all the batteries have an emf of 10 V. What is the charge on capacitor C? (If you can find the proper loop through this maze, you can answer the question with a few seconds of mental calculation).

In Figure, circuit section ABabsorbs energy at a rate of 50 W when current i= 1.0 Although it is in the indicated direction. Resistance R= 2.0 鈩�. (a) What is the potential difference between Aand B? Emf device Xlacks internal resistance.

(b) What is its emf? (c) Is point Bconnected to the positive terminal of Xor to the negative terminal?

See all solutions

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