EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
9th Edition
ISBN: 9780100460300
Author: SERWAY
Publisher: YUZU
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Chapter 32, Problem 32.25P

(a)

To determine

The current in inductor.

(a)

Expert Solution
Check Mark

Answer to Problem 32.25P

The current in inductor in the term of time is 0.500(1e10.0t) .

Explanation of Solution

Given info: value of resistance R is 4.00Ω , inductance of the circuit is 1.00H and emf of the battery is 10.0V .

Explanation:

Diagram for the circuit connected with a battery, inductor is given below.

EBK PHYSICS FOR SCIENTISTS AND ENGINEER, Chapter 32, Problem 32.25P

Figure (1)

Formula to calculate current in a loop as per Kirchhoff law is,

i=0IsIIL=0I=IsIL (1)

Here,

Is is current flowing through switch s .

I is current flowing through resistance R .

Il is the current flowing through the inductance L .

Write the expression for net voltage in loop 1,

εRIsRI=0 (2)

Write the expression to calculate net voltage in loop 2,

εRIs2RILLdILdt=0 (3)

Here,

R is resistance of circuit.

L is inductance of circuit.

dILdt is the rate of change of current in inductance.

Substitute IsIL for I in equation (2).

εRIsR(IsIL)=0ε2RIsRIL=0Is=ε2R+IL2 (4)

Substitute ε2R+IL2 for Is in equation (3).

εR(ε2R+IL2)2RILLdILdt=0ε(ε2+RIL2)2RILLdILdt=0ε2RIL22RILLdILdt=0ε25RIL2LdILdt=0

Arrange the terms of above equation to simplify for integration.

LdILdt=ε22.5RILL2.5RdILdt=ε5RILL2.5RdILdt=(ε5R+IL)dIL(ε5R+IL)=2.5RLdt

On integrate,

dILε5R+IL=(2.5RL)dt (5)

Let ε5R+IL=T .

Differentiate above equation.

dIL=dT

Substitute dT for dIL and T for ε5R+IL in equation (5).

dILT=(2.5RL)dtdILT=2.5RLdtlnT=2.5RLt+c

Substitute ε5R+IL for T in above equation.

ln(ε5R+IL)=2.5RLt+c (6)

Apply boundary condition,

Substitute 0 for t and 0 for IL in above equation.

ln(ε5R+0)=2.5RL×0+cc=ln(ε5R)

Substitute ln(ε5R) for c in equation (VI)

ln(ε5R+IL)=2.5RLt+ln(ε5R)ln(ε5R+IL)ln(ε5R)=2.5RLtln(ε5R+IL)(ε5R)=2.5RLt

Further solve the above expression.

ln(1ILε5R)=2.5RLt1ILε5R=e2.5RLtIL=ε5R(1e2.5RLt)

Substitute 10V for ε , 4Ω for R and 1H for L in above equation.

IL=10.0V5(4Ω)(1e2.5×4Ω1Ht)=0.500(1e10.0t) (7)

Thus, the current in inductor in the terms of time is 0.500(1e10.0t) .

Conclusion:

Therefore, current in inductor in the terms of time is 0.500(1e10.0t) .

(b)

To determine

The current in the switch as a function of time.

(b)

Expert Solution
Check Mark

Answer to Problem 32.25P

The current in the switch as the function of time is 1.500.25e10.0t .

Explanation of Solution

From equation (7), the formula to calculate current in inductor is,

IL=0.5(1e10.0t)

From equation (4), the formula to calculate current in switch is,

Is=ε2R+IL2

Substitute 0.5(1e10.0t) for IL in above equation to calculate Is .

Is=ε2R+12(0.5(1e10.0t))=ε2R+0.25(1e10.0t)

Substitute 10V for ε and 4.0Ω for r in above equation.

Is=10V2(4Ω)+0.25(1e10.0t)=1.25+0.25(1e10.0t)=1.500.25e10.0t

Thus, the current in switch is 1.500.25e10.0t .

Conclusion:

Therefore, the current in switch is 1.500.25e10.0t .

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Chapter 32 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

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