To show that the equation I = I max ( 1 + 3 cos 2 ϕ / 2 ) is used for this situation.

Question

Want to see more full solutions like this?

Answer 1

Question

Chapter 37, Problem 74CP

To determine

To show that the equation I=Imax(1+3cos2ϕ/2) is used for this situation.

Expert Solution & Answer

Answer to Problem 74CP

It is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

Explanation of Solution

Write the expression to find the magnitude of the light arriving at some point P.

EP=E1+E2=3E0sinωt+E0sin(ωt+ϕ)=E0(3sinωt+sin(ωt+ϕ))

Rewrite the above equation as ratio with maximum amplitude.

EpE0=3sinωt+sin(ωt+ϕ)=3sinωt+(sin(ωt)cos(ϕ)+cos(ωt)sin(ϕ))=sin(ωt)(3+cos(ϕ))+cos(ωt)sin(ϕ)

Write the square of the expression.

(EpE0)2=sin2(ωt)(3+cos(ϕ))2+2sin(ωt)cos(ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)=sin2(ωt)(3+cos(ϕ))2+sin(2ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)

Take the time average of the above equation.

(EpE0)2=12(3+cos(ϕ))2+12sin2(ϕ)=12(9+6cos(ϕ)+cos2(ϕ)+sin2(ϕ))=12(10+6cos(ϕ))=12(10+6(2cos2(ϕ2)−1))=12(4+12cos2(ϕ2))=2(1+3cos2(ϕ2))

Conclusion:

Write the expression for intensity.

I=Ep2=2E02(1+3cos2(ϕ2))

Write the expression for maximum intensity.

Imax=2E02(1+3cos2(0))=8E02

Write the expression for the ratio of intensity to maximum intensity.

IImax=2E02(1+3cos2(ϕ2))8E02=14(1+3cos2(ϕ2))

Rewrite the above equation to find the expression for intensity.

I=Imax4(1+3cos2(ϕ2))

Therefore, it is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

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

No chatgpt pls will upvote Already got wrong chatgpt answer

No chatgpt pls will upvote

Taking a Hike A hiker begins a trip by first walking 21.0 km southeast from her car. She stops and sets up her tent for the night. On the second day, she walks 46.0 km in a direction 60.0° north of east, at which point she discovers a forest ranger's tower. y (km) Can N W-DE 45.0° 60.0° Tent Tower B x (km) ☹ (a) Determine the components of the hiker's displacement for each day. SOLUTION Conceptualize We conceptualize the problem by drawing a sketch as in the figure. If we denote the displacement vectors on the first and second days by A and B, respectively, and use the ---Select-- as the origin of coordinates, we obtain the vectors shown in the figure. The sketch allows us to estimate the resultant vector as shown. Categorize Drawing the resultant R, we can now categorize this problem as one we've solved before: --Select-- of two vectors. You should now have a hint of the power of categorization in that many new problems are very similar to problems we have already solved if we are…

Answer 2

Question

Chapter 37, Problem 74CP

To determine

To show that the equation I=Imax(1+3cos2ϕ/2) is used for this situation.

Expert Solution & Answer

Answer to Problem 74CP

It is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

Explanation of Solution

Write the expression to find the magnitude of the light arriving at some point P.

EP=E1+E2=3E0sinωt+E0sin(ωt+ϕ)=E0(3sinωt+sin(ωt+ϕ))

Rewrite the above equation as ratio with maximum amplitude.

EpE0=3sinωt+sin(ωt+ϕ)=3sinωt+(sin(ωt)cos(ϕ)+cos(ωt)sin(ϕ))=sin(ωt)(3+cos(ϕ))+cos(ωt)sin(ϕ)

Write the square of the expression.

(EpE0)2=sin2(ωt)(3+cos(ϕ))2+2sin(ωt)cos(ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)=sin2(ωt)(3+cos(ϕ))2+sin(2ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)

Take the time average of the above equation.

(EpE0)2=12(3+cos(ϕ))2+12sin2(ϕ)=12(9+6cos(ϕ)+cos2(ϕ)+sin2(ϕ))=12(10+6cos(ϕ))=12(10+6(2cos2(ϕ2)−1))=12(4+12cos2(ϕ2))=2(1+3cos2(ϕ2))

Conclusion:

Write the expression for intensity.

I=Ep2=2E02(1+3cos2(ϕ2))

Write the expression for maximum intensity.

Imax=2E02(1+3cos2(0))=8E02

Write the expression for the ratio of intensity to maximum intensity.

IImax=2E02(1+3cos2(ϕ2))8E02=14(1+3cos2(ϕ2))

Rewrite the above equation to find the expression for intensity.

I=Imax4(1+3cos2(ϕ2))

Therefore, it is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

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 37, Problem 74CP

To determine

To show that the equation I=Imax(1+3cos2ϕ/2) is used for this situation.

Expert Solution & Answer

Answer to Problem 74CP

It is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

Explanation of Solution

Write the expression to find the magnitude of the light arriving at some point P.

EP=E1+E2=3E0sinωt+E0sin(ωt+ϕ)=E0(3sinωt+sin(ωt+ϕ))

Rewrite the above equation as ratio with maximum amplitude.

EpE0=3sinωt+sin(ωt+ϕ)=3sinωt+(sin(ωt)cos(ϕ)+cos(ωt)sin(ϕ))=sin(ωt)(3+cos(ϕ))+cos(ωt)sin(ϕ)

Write the square of the expression.

(EpE0)2=sin2(ωt)(3+cos(ϕ))2+2sin(ωt)cos(ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)=sin2(ωt)(3+cos(ϕ))2+sin(2ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)

Take the time average of the above equation.

(EpE0)2=12(3+cos(ϕ))2+12sin2(ϕ)=12(9+6cos(ϕ)+cos2(ϕ)+sin2(ϕ))=12(10+6cos(ϕ))=12(10+6(2cos2(ϕ2)−1))=12(4+12cos2(ϕ2))=2(1+3cos2(ϕ2))

Conclusion:

Write the expression for intensity.

I=Ep2=2E02(1+3cos2(ϕ2))

Write the expression for maximum intensity.

Imax=2E02(1+3cos2(0))=8E02

Write the expression for the ratio of intensity to maximum intensity.

IImax=2E02(1+3cos2(ϕ2))8E02=14(1+3cos2(ϕ2))

Rewrite the above equation to find the expression for intensity.

I=Imax4(1+3cos2(ϕ2))

Therefore, it is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

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 37, Problem 74CP

To determine

To show that the equation I=Imax(1+3cos2ϕ/2) is used for this situation.

Expert Solution & Answer

Answer to Problem 74CP

It is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

Explanation of Solution

Write the expression to find the magnitude of the light arriving at some point P.

EP=E1+E2=3E0sinωt+E0sin(ωt+ϕ)=E0(3sinωt+sin(ωt+ϕ))

Rewrite the above equation as ratio with maximum amplitude.

EpE0=3sinωt+sin(ωt+ϕ)=3sinωt+(sin(ωt)cos(ϕ)+cos(ωt)sin(ϕ))=sin(ωt)(3+cos(ϕ))+cos(ωt)sin(ϕ)

Write the square of the expression.

(EpE0)2=sin2(ωt)(3+cos(ϕ))2+2sin(ωt)cos(ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)=sin2(ωt)(3+cos(ϕ))2+sin(2ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)

Take the time average of the above equation.

(EpE0)2=12(3+cos(ϕ))2+12sin2(ϕ)=12(9+6cos(ϕ)+cos2(ϕ)+sin2(ϕ))=12(10+6cos(ϕ))=12(10+6(2cos2(ϕ2)−1))=12(4+12cos2(ϕ2))=2(1+3cos2(ϕ2))

Conclusion:

Write the expression for intensity.

I=Ep2=2E02(1+3cos2(ϕ2))

Write the expression for maximum intensity.

Imax=2E02(1+3cos2(0))=8E02

Write the expression for the ratio of intensity to maximum intensity.

IImax=2E02(1+3cos2(ϕ2))8E02=14(1+3cos2(ϕ2))

Rewrite the above equation to find the expression for intensity.

I=Imax4(1+3cos2(ϕ2))

Therefore, it is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

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 37, Problem 74CP

To determine

To show that the equation I=Imax(1+3cos2ϕ/2) is used for this situation.

Expert Solution & Answer

Answer to Problem 74CP

It is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

Explanation of Solution

Write the expression to find the magnitude of the light arriving at some point P.

EP=E1+E2=3E0sinωt+E0sin(ωt+ϕ)=E0(3sinωt+sin(ωt+ϕ))

Rewrite the above equation as ratio with maximum amplitude.

EpE0=3sinωt+sin(ωt+ϕ)=3sinωt+(sin(ωt)cos(ϕ)+cos(ωt)sin(ϕ))=sin(ωt)(3+cos(ϕ))+cos(ωt)sin(ϕ)

Write the square of the expression.

(EpE0)2=sin2(ωt)(3+cos(ϕ))2+2sin(ωt)cos(ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)=sin2(ωt)(3+cos(ϕ))2+sin(2ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)

Take the time average of the above equation.

(EpE0)2=12(3+cos(ϕ))2+12sin2(ϕ)=12(9+6cos(ϕ)+cos2(ϕ)+sin2(ϕ))=12(10+6cos(ϕ))=12(10+6(2cos2(ϕ2)−1))=12(4+12cos2(ϕ2))=2(1+3cos2(ϕ2))

Conclusion:

Write the expression for intensity.

I=Ep2=2E02(1+3cos2(ϕ2))

Write the expression for maximum intensity.

Imax=2E02(1+3cos2(0))=8E02

Write the expression for the ratio of intensity to maximum intensity.

IImax=2E02(1+3cos2(ϕ2))8E02=14(1+3cos2(ϕ2))

Rewrite the above equation to find the expression for intensity.

I=Imax4(1+3cos2(ϕ2))

Therefore, it is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

Answer 6

Chapter 37, Problem 74CP

To determine

To show that the equation I=Imax(1+3cos2ϕ/2) is used for this situation.

Expert Solution & Answer

Answer to Problem 74CP

It is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

Explanation of Solution

Write the expression to find the magnitude of the light arriving at some point P.

EP=E1+E2=3E0sinωt+E0sin(ωt+ϕ)=E0(3sinωt+sin(ωt+ϕ))

Rewrite the above equation as ratio with maximum amplitude.

EpE0=3sinωt+sin(ωt+ϕ)=3sinωt+(sin(ωt)cos(ϕ)+cos(ωt)sin(ϕ))=sin(ωt)(3+cos(ϕ))+cos(ωt)sin(ϕ)

Write the square of the expression.

(EpE0)2=sin2(ωt)(3+cos(ϕ))2+2sin(ωt)cos(ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)=sin2(ωt)(3+cos(ϕ))2+sin(2ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)

Take the time average of the above equation.

(EpE0)2=12(3+cos(ϕ))2+12sin2(ϕ)=12(9+6cos(ϕ)+cos2(ϕ)+sin2(ϕ))=12(10+6cos(ϕ))=12(10+6(2cos2(ϕ2)−1))=12(4+12cos2(ϕ2))=2(1+3cos2(ϕ2))

Conclusion:

Write the expression for intensity.

I=Ep2=2E02(1+3cos2(ϕ2))

Write the expression for maximum intensity.

Imax=2E02(1+3cos2(0))=8E02

Write the expression for the ratio of intensity to maximum intensity.

IImax=2E02(1+3cos2(ϕ2))8E02=14(1+3cos2(ϕ2))

Rewrite the above equation to find the expression for intensity.

I=Imax4(1+3cos2(ϕ2))

Therefore, it is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

Answer 7

Chapter 37, Problem 74CP

To determine

To show that the equation I=Imax(1+3cos2ϕ/2) is used for this situation.

Answer 8

Expert Solution & Answer

Answer to Problem 74CP

It is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

Explanation of Solution

Write the expression to find the magnitude of the light arriving at some point P.

EP=E1+E2=3E0sinωt+E0sin(ωt+ϕ)=E0(3sinωt+sin(ωt+ϕ))

Rewrite the above equation as ratio with maximum amplitude.

EpE0=3sinωt+sin(ωt+ϕ)=3sinωt+(sin(ωt)cos(ϕ)+cos(ωt)sin(ϕ))=sin(ωt)(3+cos(ϕ))+cos(ωt)sin(ϕ)

Write the square of the expression.

(EpE0)2=sin2(ωt)(3+cos(ϕ))2+2sin(ωt)cos(ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)=sin2(ωt)(3+cos(ϕ))2+sin(2ωt)(3+cos(ϕ))sin(ϕ)+cos2(ωt)sin2(ϕ)

Take the time average of the above equation.

(EpE0)2=12(3+cos(ϕ))2+12sin2(ϕ)=12(9+6cos(ϕ)+cos2(ϕ)+sin2(ϕ))=12(10+6cos(ϕ))=12(10+6(2cos2(ϕ2)−1))=12(4+12cos2(ϕ2))=2(1+3cos2(ϕ2))

Conclusion:

Write the expression for intensity.

I=Ep2=2E02(1+3cos2(ϕ2))

Write the expression for maximum intensity.

Imax=2E02(1+3cos2(0))=8E02

Write the expression for the ratio of intensity to maximum intensity.

IImax=2E02(1+3cos2(ϕ2))8E02=14(1+3cos2(ϕ2))

Rewrite the above equation to find the expression for intensity.

I=Imax4(1+3cos2(ϕ2))

Therefore, it is shown that the equation I=Imax(1+3cos2ϕ/2)_ is used for this situation.

Answer 12

Ch. 37.2 - Which of the following causes the fringes in a...Ch. 37.3 - Using Figure 36.6 as a model, sketch the...Ch. 37.5 - One microscope slide is placed on top of another...Ch. 37 - Prob. 1OQ Ch. 37 - Four trials of Youngs double-slit experiment are...Ch. 37 - Suppose Youngs double-slit experiment is performed...Ch. 37 - Prob. 4OQ Ch. 37 - Prob. 5OQ Ch. 37 - Prob. 6OQ Ch. 37 - Prob. 7OQ

To show that the equation I = I max ( 1 + 3 cos 2 ϕ / 2 ) is used for this situation.

Concept explainers

Videos

To show that the equation I=Imax(1+3cos2ϕ/2) is used for this situation.

Answer to Problem 74CP

Explanation of Solution

Want to see more full solutions like this?

Chapter 37 Solutions