Physics for Scientists and Engineers with Modern Physics, Technology Update
Physics for Scientists and Engineers with Modern Physics, Technology Update
9th Edition
ISBN: 9781305401969
Author: SERWAY, Raymond A.; Jewett, John W.
Publisher: Cengage Learning
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Chapter 28, Problem 12P

(a)

To determine

The resistance R1 for the given circuit.

(a)

Expert Solution
Check Mark

Answer to Problem 12P

The resistance R1 for the given circuit is ε(1Ib+2Ia2I0).

Explanation of Solution

At the start when the switch is open.

The resistors R1, R2 and R3 are connected in series.

Write the expression for the equivalent resistance for the resistors connected in series.

    RS=R1+R2+R3                          (I)

Here, RS is the equivalent resistance for the resistors connected in series and R1, R2 and R3 are the resistors.

Write the expression for the Ohm’s law when the switch is open.

    ε=I0RS                    (II)

Here, ε is the potential difference and I0 is the current when the switch is open.

Substitute R1+R2+R3 for RS in equation (I).

    ε=I0(R1+R2+R3)(R1+R2+R3)=εI0                                (III)

When the switch is closed.

Resistors R2 and R2 are parallel to each other.

Write the expression for the equivalent resistance for the resistors connected in parallel.

    1RP=1R2+1R2RP=R22                         (IV)

Here, RP is the equivalent resistance for the resistors connected in parallel.

Write the expression for the Ohm’s law when the switch is closed at position a.

    ε=IaRP                    (V)

Here, ε is the potential difference and Ia is the current when the switch is closed at position a.

Substitute R22 for RP in equation (V).

    ε=(R22)R2=2εIa                                           (VI)

Now, R1, RP and R3 are connected in series.

Write the expression for equivalent resistance of the resistor in the circuit.

    Re=R1+RP+R3                                     (VII)

Substitute R22 for RP in equation (VII).

    Req=R1+R22+R3

Here, Req is the equivalent resistance of  the resistors in the circuit

Write the expression for the Ohm’s law for equivalent circuit.

    ε=IaReq                     (VIII)

Here, ε is the potential difference and I is the current.

Substitute R1+R22+R3 for Req in equation (VIII).

    ε=Ia(R1+R22+R3)(R1+R22+R3)=εIa                           (IX)

When the switch is at position b.

The resistors R1 and R2 are in series.

Write the expression for the equivalent resistance for the resistors in series

    RS=R1+R2

Here, RS is the equivalent resistance for the resistors in series.

Write the expression for the Ohm’s law.

    ε=IbRS                    (X)

Here, ε is the potential difference and I is the current when the witch is at b.

Conclusion:

Substitute R1+R2 for RS equation (X).

    ε=Ib(R1+R2)(R1+R2)=εIb                               (XI)

Substitute εIb for (R1+R2) in equation (III).

    (εIb+R3)=εI0R3=ε(1I01Ib)                                  (XII)

Substitute ε(1I01Ib) for R3 in equation (IX).

    (R1+R22+ε(1I01Ib))=εIaR1+R22=εIa+εIbεI0                         (XIII)

Substitute (R1+R2) for εIb in equation (XIII).

    R1+R22=εIa+(R1+R2)εI02R2R2=2ε(1I01Ia)R2=2ε(1I01Ia)                        (XIV)

Substitute 2ε(1I01Ia) for R2 in equation (XI).

    (R1+2ε(1I01Ia))=εIbR1=εIb2ε(1I01Ia)=ε(1Ib+2Ia2I0)

Therefore, the resistance R1 for the given circuit is ε(1Ib+2Ia2I0).

(b)

To determine

The resistance R2 for the given circuit

(b)

Expert Solution
Check Mark

Answer to Problem 12P

The resistance R2 for the given circuit is 2ε(1I01Ia).

Explanation of Solution

Conclusion:

Substitute R1+R2 for RS equation (X).

    ε=Ib(R1+R2)(R1+R2)=εIb                               (XI)

Substitute εIb for (R1+R2) in equation (III).

    (εIb+R3)=εI0R3=ε(1I01Ib)                                  (XII)

Substitute ε(1I01Ib) for R3 in equation (IX).

    (R1+R22+ε(1I01Ib))=εIaR1+R22=εIa+εIbεI0                         (XIII)

Substitute (R1+R2) for εIb in equation (XIII).

    R1+R22=εIa+(R1+R2)εI02R2R2=2ε(1I01Ia)R2=2ε(1I01Ia)                         (XIV)

Therefore, the resistance R2 for the given circuit is 2ε(1I01Ia).

(c)

To determine

The resistance R3 for the given circuit

(c)

Expert Solution
Check Mark

Answer to Problem 12P

The resistance R3 for the given circuit is ε(1I01Ib).

Explanation of Solution

Conclusion:

Substitute R1+R2 for RS equation (X).

    ε=Ib(R1+R2)(R1+R2)=εIb                               (XI)

Substitute εIb for (R1+R2) in equation (III).

    (εIb+R3)=εI0R3=ε(1I01Ib)                                  (XII)

Therefore, the resistance R3 for the given circuit is ε(1I01Ib).

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Physics for Scientists and Engineers with Modern Physics, Technology Update

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