The proof that I T = I 0 [ 4 n ( n + 1 ) 2 ] 2 .

Question

Want to see more full solutions like this?

Answer 1

Question

Chapter 31, Problem 82P

(a)

To determine

The proof that IT=I0[4n ( n+1 ) 2]2 .

(a)

Expert Solution

Answer to Problem 82P

It is proved that I0[4n ( 1+n ) 2]2 .

Explanation of Solution

Formula used:

The expression for IT is given by,

IT=Iglass−IR,2

The expression for Iglass is given by,

Iglass=I0[4n( 1+n)2]

The expression for IR,2 is given by,

IR,2=( 1−n 1+n)2Iglass

Calculation:

The expression for IR,2 is calculated as,

IR,2=( 1−n 1+n)2Iglass=( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]

The expression for IT is calculated as,

IT=Iglass−IR,2=I0[4n ( 1+n ) 2]−( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]=I0[1−( 1−n 1+n )2][4n ( 1+n ) 2]=I0[ 4n ( 1+n ) 2 ]2

Conclusion:

Therefore, it is proved that I0[4n ( 1+n ) 2]2 .

(b)

To determine

The ratio of transmitted intensity and incident intensity.

(b)

Expert Solution

Answer to Problem 82P

The ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

Explanation of Solution

Formula used:

The expression for transmitted intensity for N is given by,

IT=I0[4n ( 1+n ) 2]2N

Calculation:

The ratio of transmitted intensity and incident intensity is calculated as,

IT=I0[ 4n ( 1+n ) 2 ]2NITI0=[ 4n ( 1+n ) 2 ]2N

Conclusion:

Therefore, the ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

(c)

To determine

The number of slabs.

(c)

Expert Solution

Answer to Problem 82P

The number of slabs is 28 .

Explanation of Solution

Given:

The refraction index is n=1.5 .

Calculation:

The number of slabs is calculated as,

ITI0=[ 4n ( 1+n ) 2 ]2N0.1=[ 4( 1.5 ) ( 1+1.5 ) 2 ]2NN=log( 0.1)2log[ 4( 1.5 ) ( 1+1.5 ) 2 ]≈28

Conclusion:

Therefore, the number of slabs is 28 .

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Students have asked these similar questions

In the pivot assignment, we observed waves moving on a string stretched by hanging weights. We noticed that certain frequencies produced standing waves. One such situation is shown below: 0 ст Direct Measurement ©2015 Peter Bohacek I. 20 0 cm 10 20 30 40 50 60 70 80 90 100 Which Harmonic is this? Do NOT include units! What is the wavelength of this wave in cm with only no decimal places? If the speed of this wave is 2500 cm/s, what is the frequency of this harmonic (in Hz, with NO decimal places)?

Four capacitors are connected as shown in the figure below. (Let C = 12.0 µF.) A circuit consists of four capacitors. It begins at point a before the wire splits in two directions. On the upper split, there is a capacitor C followed by a 3.00 µF capacitor. On the lower split, there is a 6.00 µF capacitor. The two splits reconnect and are followed by a 20.0 µF capacitor, which is then followed by point b. (a) Find the equivalent capacitance between points a and b. µF(b) Calculate the charge on each capacitor, taking ΔVab = 16.0 V. 20.0 µF capacitor µC 6.00 µF capacitor µC 3.00 µF capacitor µC capacitor C µC

Two conductors having net charges of +14.0 µC and -14.0 µC have a potential difference of 14.0 V between them. (a) Determine the capacitance of the system. F (b) What is the potential difference between the two conductors if the charges on each are increased to +196.0 µC and -196.0 µC? V

Answer 2

Question

Chapter 31, Problem 82P

(a)

To determine

The proof that IT=I0[4n ( n+1 ) 2]2 .

(a)

Expert Solution

Answer to Problem 82P

It is proved that I0[4n ( 1+n ) 2]2 .

Explanation of Solution

Formula used:

The expression for IT is given by,

IT=Iglass−IR,2

The expression for Iglass is given by,

Iglass=I0[4n( 1+n)2]

The expression for IR,2 is given by,

IR,2=( 1−n 1+n)2Iglass

Calculation:

The expression for IR,2 is calculated as,

IR,2=( 1−n 1+n)2Iglass=( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]

The expression for IT is calculated as,

IT=Iglass−IR,2=I0[4n ( 1+n ) 2]−( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]=I0[1−( 1−n 1+n )2][4n ( 1+n ) 2]=I0[ 4n ( 1+n ) 2 ]2

Conclusion:

Therefore, it is proved that I0[4n ( 1+n ) 2]2 .

(b)

To determine

The ratio of transmitted intensity and incident intensity.

(b)

Expert Solution

Answer to Problem 82P

The ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

Explanation of Solution

Formula used:

The expression for transmitted intensity for N is given by,

IT=I0[4n ( 1+n ) 2]2N

Calculation:

The ratio of transmitted intensity and incident intensity is calculated as,

IT=I0[ 4n ( 1+n ) 2 ]2NITI0=[ 4n ( 1+n ) 2 ]2N

Conclusion:

Therefore, the ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

(c)

To determine

The number of slabs.

(c)

Expert Solution

Answer to Problem 82P

The number of slabs is 28 .

Explanation of Solution

Given:

The refraction index is n=1.5 .

Calculation:

The number of slabs is calculated as,

ITI0=[ 4n ( 1+n ) 2 ]2N0.1=[ 4( 1.5 ) ( 1+1.5 ) 2 ]2NN=log( 0.1)2log[ 4( 1.5 ) ( 1+1.5 ) 2 ]≈28

Conclusion:

Therefore, the number of slabs is 28 .

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 3

Question

Chapter 31, Problem 82P

(a)

To determine

The proof that IT=I0[4n ( n+1 ) 2]2 .

(a)

Expert Solution

Answer to Problem 82P

It is proved that I0[4n ( 1+n ) 2]2 .

Explanation of Solution

Formula used:

The expression for IT is given by,

IT=Iglass−IR,2

The expression for Iglass is given by,

Iglass=I0[4n( 1+n)2]

The expression for IR,2 is given by,

IR,2=( 1−n 1+n)2Iglass

Calculation:

The expression for IR,2 is calculated as,

IR,2=( 1−n 1+n)2Iglass=( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]

The expression for IT is calculated as,

IT=Iglass−IR,2=I0[4n ( 1+n ) 2]−( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]=I0[1−( 1−n 1+n )2][4n ( 1+n ) 2]=I0[ 4n ( 1+n ) 2 ]2

Conclusion:

Therefore, it is proved that I0[4n ( 1+n ) 2]2 .

(b)

To determine

The ratio of transmitted intensity and incident intensity.

(b)

Expert Solution

Answer to Problem 82P

The ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

Explanation of Solution

Formula used:

The expression for transmitted intensity for N is given by,

IT=I0[4n ( 1+n ) 2]2N

Calculation:

The ratio of transmitted intensity and incident intensity is calculated as,

IT=I0[ 4n ( 1+n ) 2 ]2NITI0=[ 4n ( 1+n ) 2 ]2N

Conclusion:

Therefore, the ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

(c)

To determine

The number of slabs.

(c)

Expert Solution

Answer to Problem 82P

The number of slabs is 28 .

Explanation of Solution

Given:

The refraction index is n=1.5 .

Calculation:

The number of slabs is calculated as,

ITI0=[ 4n ( 1+n ) 2 ]2N0.1=[ 4( 1.5 ) ( 1+1.5 ) 2 ]2NN=log( 0.1)2log[ 4( 1.5 ) ( 1+1.5 ) 2 ]≈28

Conclusion:

Therefore, the number of slabs is 28 .

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 4

Question

Chapter 31, Problem 82P

(a)

To determine

The proof that IT=I0[4n ( n+1 ) 2]2 .

(a)

Expert Solution

Answer to Problem 82P

It is proved that I0[4n ( 1+n ) 2]2 .

Explanation of Solution

Formula used:

The expression for IT is given by,

IT=Iglass−IR,2

The expression for Iglass is given by,

Iglass=I0[4n( 1+n)2]

The expression for IR,2 is given by,

IR,2=( 1−n 1+n)2Iglass

Calculation:

The expression for IR,2 is calculated as,

IR,2=( 1−n 1+n)2Iglass=( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]

The expression for IT is calculated as,

IT=Iglass−IR,2=I0[4n ( 1+n ) 2]−( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]=I0[1−( 1−n 1+n )2][4n ( 1+n ) 2]=I0[ 4n ( 1+n ) 2 ]2

Conclusion:

Therefore, it is proved that I0[4n ( 1+n ) 2]2 .

(b)

To determine

The ratio of transmitted intensity and incident intensity.

(b)

Expert Solution

Answer to Problem 82P

The ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

Explanation of Solution

Formula used:

The expression for transmitted intensity for N is given by,

IT=I0[4n ( 1+n ) 2]2N

Calculation:

The ratio of transmitted intensity and incident intensity is calculated as,

IT=I0[ 4n ( 1+n ) 2 ]2NITI0=[ 4n ( 1+n ) 2 ]2N

Conclusion:

Therefore, the ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

(c)

To determine

The number of slabs.

(c)

Expert Solution

Answer to Problem 82P

The number of slabs is 28 .

Explanation of Solution

Given:

The refraction index is n=1.5 .

Calculation:

The number of slabs is calculated as,

ITI0=[ 4n ( 1+n ) 2 ]2N0.1=[ 4( 1.5 ) ( 1+1.5 ) 2 ]2NN=log( 0.1)2log[ 4( 1.5 ) ( 1+1.5 ) 2 ]≈28

Conclusion:

Therefore, the number of slabs is 28 .

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 5

Chapter 31, Problem 82P

(a)

To determine

The proof that IT=I0[4n ( n+1 ) 2]2 .

(a)

Expert Solution

Answer to Problem 82P

It is proved that I0[4n ( 1+n ) 2]2 .

Explanation of Solution

Formula used:

The expression for IT is given by,

IT=Iglass−IR,2

The expression for Iglass is given by,

Iglass=I0[4n( 1+n)2]

The expression for IR,2 is given by,

IR,2=( 1−n 1+n)2Iglass

Calculation:

The expression for IR,2 is calculated as,

IR,2=( 1−n 1+n)2Iglass=( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]

The expression for IT is calculated as,

IT=Iglass−IR,2=I0[4n ( 1+n ) 2]−( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]=I0[1−( 1−n 1+n )2][4n ( 1+n ) 2]=I0[ 4n ( 1+n ) 2 ]2

Conclusion:

Therefore, it is proved that I0[4n ( 1+n ) 2]2 .

(b)

To determine

The ratio of transmitted intensity and incident intensity.

(b)

Expert Solution

Answer to Problem 82P

The ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

Explanation of Solution

Formula used:

The expression for transmitted intensity for N is given by,

IT=I0[4n ( 1+n ) 2]2N

Calculation:

The ratio of transmitted intensity and incident intensity is calculated as,

IT=I0[ 4n ( 1+n ) 2 ]2NITI0=[ 4n ( 1+n ) 2 ]2N

Conclusion:

Therefore, the ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

(c)

To determine

The number of slabs.

(c)

Expert Solution

Answer to Problem 82P

The number of slabs is 28 .

Explanation of Solution

Given:

The refraction index is n=1.5 .

Calculation:

The number of slabs is calculated as,

ITI0=[ 4n ( 1+n ) 2 ]2N0.1=[ 4( 1.5 ) ( 1+1.5 ) 2 ]2NN=log( 0.1)2log[ 4( 1.5 ) ( 1+1.5 ) 2 ]≈28

Conclusion:

Therefore, the number of slabs is 28 .

Answer 6

Chapter 31, Problem 82P

(a)

To determine

The proof that IT=I0[4n ( n+1 ) 2]2 .

(a)

Expert Solution

Answer to Problem 82P

It is proved that I0[4n ( 1+n ) 2]2 .

Explanation of Solution

Formula used:

The expression for IT is given by,

IT=Iglass−IR,2

The expression for Iglass is given by,

Iglass=I0[4n( 1+n)2]

The expression for IR,2 is given by,

IR,2=( 1−n 1+n)2Iglass

Calculation:

The expression for IR,2 is calculated as,

IR,2=( 1−n 1+n)2Iglass=( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]

The expression for IT is calculated as,

IT=Iglass−IR,2=I0[4n ( 1+n ) 2]−( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]=I0[1−( 1−n 1+n )2][4n ( 1+n ) 2]=I0[ 4n ( 1+n ) 2 ]2

Conclusion:

Therefore, it is proved that I0[4n ( 1+n ) 2]2 .

Answer 7

Chapter 31, Problem 82P

(a)

To determine

The proof that IT=I0[4n ( n+1 ) 2]2 .

Answer 8

(a)

Expert Solution

Answer to Problem 82P

It is proved that I0[4n ( 1+n ) 2]2 .

Answer 9

(a)

Expert Solution

Answer 10

(a)

Expert Solution

Answer 11

Expert Solution

Answer 12

Explanation of Solution

Formula used:

The expression for IT is given by,

IT=Iglass−IR,2

The expression for Iglass is given by,

Iglass=I0[4n( 1+n)2]

The expression for IR,2 is given by,

IR,2=( 1−n 1+n)2Iglass

Calculation:

The expression for IR,2 is calculated as,

IR,2=( 1−n 1+n)2Iglass=( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]

The expression for IT is calculated as,

IT=Iglass−IR,2=I0[4n ( 1+n ) 2]−( 1−n 1+n)2[I0[ 4n ( 1+n ) 2 ]]=I0[1−( 1−n 1+n )2][4n ( 1+n ) 2]=I0[ 4n ( 1+n ) 2 ]2

Conclusion:

Therefore, it is proved that I0[4n ( 1+n ) 2]2 .

Answer 13

(b)

To determine

The ratio of transmitted intensity and incident intensity.

(b)

Expert Solution

Answer to Problem 82P

The ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

Explanation of Solution

Formula used:

The expression for transmitted intensity for N is given by,

IT=I0[4n ( 1+n ) 2]2N

Calculation:

The ratio of transmitted intensity and incident intensity is calculated as,

IT=I0[ 4n ( 1+n ) 2 ]2NITI0=[ 4n ( 1+n ) 2 ]2N

Conclusion:

Therefore, the ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

Answer 14

(b)

To determine

The ratio of transmitted intensity and incident intensity.

Answer 15

(b)

Expert Solution

Answer to Problem 82P

The ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

Answer 16

(b)

Expert Solution

Answer 17

(b)

Expert Solution

Answer 18

Expert Solution

Answer 19

Explanation of Solution

Formula used:

The expression for transmitted intensity for N is given by,

IT=I0[4n ( 1+n ) 2]2N

Calculation:

The ratio of transmitted intensity and incident intensity is calculated as,

IT=I0[ 4n ( 1+n ) 2 ]2NITI0=[ 4n ( 1+n ) 2 ]2N

Conclusion:

Therefore, the ratio of transmitted intensity and incident intensity is [4n ( 1+n ) 2]2N .

Answer 20

(c)

To determine

The number of slabs.

(c)

Expert Solution

Answer to Problem 82P

The number of slabs is 28 .

Explanation of Solution

Given:

The refraction index is n=1.5 .

Calculation:

The number of slabs is calculated as,

ITI0=[ 4n ( 1+n ) 2 ]2N0.1=[ 4( 1.5 ) ( 1+1.5 ) 2 ]2NN=log( 0.1)2log[ 4( 1.5 ) ( 1+1.5 ) 2 ]≈28

Conclusion:

Therefore, the number of slabs is 28 .

Answer 21

(c)

To determine

The number of slabs.

Answer 22

(c)

Expert Solution

Answer to Problem 82P

The number of slabs is 28 .

Answer 23

(c)

Expert Solution

Answer 24

(c)

Expert Solution

Answer 25

Expert Solution

Answer 26

Explanation of Solution

Given:

The refraction index is n=1.5 .

Calculation:

The number of slabs is calculated as,

ITI0=[ 4n ( 1+n ) 2 ]2N0.1=[ 4( 1.5 ) ( 1+1.5 ) 2 ]2NN=log( 0.1)2log[ 4( 1.5 ) ( 1+1.5 ) 2 ]≈28

Conclusion:

Therefore, the number of slabs is 28 .

Answer 27

Ch. 31 - Prob. 1P Ch. 31 - Prob. 2P Ch. 31 - Prob. 3P Ch. 31 - Prob. 4P Ch. 31 - Prob. 5P Ch. 31 - Prob. 6P Ch. 31 - Prob. 7P Ch. 31 - Prob. 8P Ch. 31 - Prob. 9P Ch. 31 - Prob. 10P

The proof that I T = I 0 [ 4 n ( n + 1 ) 2 ] 2 .

Videos

The proof that IT=I0[4n ( n+1 ) 2]2 .

Answer to Problem 82P

Explanation of Solution

The ratio of transmitted intensity and incident intensity.

Answer to Problem 82P

Explanation of Solution

The number of slabs.

Answer to Problem 82P

Explanation of Solution

Want to see more full solutions like this?

Chapter 31 Solutions